{"id":18003,"date":"2025-02-18T04:57:22","date_gmt":"2025-02-18T04:57:22","guid":{"rendered":"https:\/\/aludiecasting.com\/?p=18003"},"modified":"2025-02-18T04:57:22","modified_gmt":"2025-02-18T04:57:22","slug":"fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning","status":"publish","type":"post","link":"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/","title":{"rendered":"Fordele ved at bruge zinklegeringer i h\u00f8jtryksst\u00f8bning"},"content":{"rendered":"<div id=\"ez-toc-container\" class=\"ez-toc-v2_0_82_2 counter-hierarchy ez-toc-counter ez-toc-grey ez-toc-container-direction\">\n<div class=\"ez-toc-title-container\">\n<p class=\"ez-toc-title\" style=\"cursor:inherit\">Indholdsfortegnelse<\/p>\n<span class=\"ez-toc-title-toggle\"><a href=\"#\" class=\"ez-toc-pull-right ez-toc-btn ez-toc-btn-xs ez-toc-btn-default ez-toc-toggle\" aria-label=\"Skift til indholdsfortegnelse\"><span class=\"ez-toc-js-icon-con\"><span class=\"\"><span class=\"eztoc-hide\" style=\"display:none;\">Toggle<\/span><span class=\"ez-toc-icon-toggle-span\"><svg style=\"fill: #7c7c7c;color:#7c7c7c\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\" class=\"list-377408\" width=\"20px\" height=\"20px\" viewbox=\"0 0 24 24\" fill=\"none\"><path d=\"M6 6H4v2h2V6zm14 0H8v2h12V6zM4 11h2v2H4v-2zm16 0H8v2h12v-2zM4 16h2v2H4v-2zm16 0H8v2h12v-2z\" fill=\"currentColor\"><\/path><\/svg><svg style=\"fill: #7c7c7c;color:#7c7c7c\" class=\"arrow-unsorted-368013\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\" width=\"10px\" height=\"10px\" viewbox=\"0 0 24 24\" version=\"1.2\" baseprofile=\"tiny\"><path d=\"M18.2 9.3l-6.2-6.3-6.2 6.3c-.2.2-.3.4-.3.7s.1.5.3.7c.2.2.4.3.7.3h11c.3 0 .5-.1.7-.3.2-.2.3-.5.3-.7s-.1-.5-.3-.7zM5.8 14.7l6.2 6.3 6.2-6.3c.2-.2.3-.5.3-.7s-.1-.5-.3-.7c-.2-.2-.4-.3-.7-.3h-11c-.3 0-.5.1-.7.3-.2.2-.3.5-.3.7s.1.5.3.7z\"\/><\/svg><\/span><\/span><\/span><\/a><\/span><\/div>\n<nav><ul class='ez-toc-list ez-toc-list-level-1' ><li class='ez-toc-page-1 ez-toc-heading-level-1'><a class=\"ez-toc-link ez-toc-heading-1\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#High-pressure_die_casting_uses_zinc_to_make_strong_parts_Zinc_alloys_are_easy_to_shape_in_this_process_This_makes_lots_of_parts_quickly_and_cheaply_Zinc_parts_made_this_way_are_strong_and_last_a_long_time\" >H\u00f8jtryksst\u00f8bning bruger zink til at lave st\u00e6rke dele. Zinklegeringer er nemme at forme i denne proces. Det g\u00f8r det muligt at lave mange dele hurtigt og billigt. Zinkdele fremstillet p\u00e5 denne m\u00e5de er st\u00e6rke og holder l\u00e6nge.<\/a><ul class='ez-toc-list-level-2' ><li class='ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-2\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#What_is_Zinc_Alloy_Definition\" >Hvad er en zinklegering? Definition<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-3\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#1_Zamak_3_Zinc-Aluminum_Alloy\" >1. Zamak 3 (zink-aluminium-legering)<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-4\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#2_ZA-12_Zinc-Aluminum-Copper_Alloy\" >2. ZA-12 (zink-aluminium-kobber-legering)<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-5\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#3_ZA-27_Zinc-Aluminum-Copper_Alloy\" >3. ZA-27 (zink-aluminium-kobber-legering)<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-6\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#4_Zinc-Copper-Titanium_Alloy_ZCT\" >4. Zink-kobber-titan-legering (ZCT)<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-7\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Benefits_of_Zinc_Alloys_in_High-Pressure_Die_Casting\" >Fordele ved zinklegeringer i h\u00f8jtryksst\u00f8bning<\/a><ul class='ez-toc-list-level-3' ><li class='ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-8\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Strength_and_Density_Comparison\" >Sammenligning af styrke og t\u00e6thed<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-9\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Effect_of_Magnesium_Mg_Addition\" >Effekt af tils\u00e6tning af magnesium (Mg)<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-10\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Microstructure_and_Application\" >Mikrostruktur og anvendelse<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-11\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Impact_Resistance_and_Wear_Strength\" >Slagfasthed og slidstyrke<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-12\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Lower_Melting_Point_and_Improved_Flow\" >Lavere smeltepunkt og bedre flow<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-13\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#High_Precision_and_Dimensional_Stability\" >H\u00f8j pr\u00e6cision og dimensionsstabilitet<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-14\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Reduced_Defects_and_Improved_Mold_Filling\" >F\u00e6rre defekter og bedre formfyldning<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-15\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Superior_Corrosion_Resistance\" >Overlegen korrosionsbestandighed<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-16\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Protective_Layer_Formation\" >Dannelse af beskyttende lag<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-17\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Additional_Coatings_for_Durability\" >Ekstra bel\u00e6gninger for holdbarhed<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-18\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Faster_Production\" >Hurtigere produktion<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-19\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Superior_Surface_Finish_and_Reduced_Machining\" >Overlegen overfladefinish og reduceret bearbejdning<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-20\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Enhanced_Electrical_and_Thermal_Conductivity\" >Forbedret elektrisk og termisk ledningsevne<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-21\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#High_Fatigue_Strength_for_Moving_Components\" >H\u00f8j udmattelsesstyrke for bev\u00e6gelige komponenter<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-22\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Cost_Advantages_of_Zinc_Alloys\" >Omkostningsfordele ved zinklegeringer<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-23\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Sustainability_and_Environmental_Benefits\" >B\u00e6redygtighed og milj\u00f8m\u00e6ssige fordele<\/a><\/li><\/ul><\/li><li class='ez-toc-page-1 ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-24\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Applications_of_Zinc_Alloys_in_HPDC\" >Anvendelser af zinklegeringer i HPDC<\/a><ul class='ez-toc-list-level-3' ><li class='ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-25\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#1_Automotive_Precision_Parts_for_Better_Performance\" >1.   Biler: Pr\u00e6cisionsdele til bedre ydeevne<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-26\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#2_Aerospace_Lightweight_Reliable_Components\" >2.   Luft- og rumfart: Lette, p\u00e5lidelige komponenter<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-27\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#3_Construction_Durable_Hardware_for_Everyday_Use\" >3.   Konstruktion: Holdbar hardware til hverdagsbrug<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-28\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#4_Consumer_Goods_Stylish_and_Strong_Designs\" >4.   Forbrugsgoder: Stilfulde og st\u00e6rke designs<\/a><\/li><\/ul><\/li><li class='ez-toc-page-1 ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-29\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Challenges_and_Future_Directions\" >Udfordringer og fremtidige retninger<\/a><ul class='ez-toc-list-level-3' ><li class='ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-30\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Temperature_Limits_in_Die_Casting\" >Temperaturgr\u00e6nser i trykst\u00f8bning<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-31\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Oxidation_Risks_and_Solutions\" >Oxidationsrisici og l\u00f8sninger<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-32\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Research_to_Improve_Zinc_Alloys\" >Forskning skal forbedre zinklegeringer<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-33\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Zinc_in_Emerging_Technologies\" >Zink i nye teknologier<\/a><\/li><li class='ez-toc-page-1 ez-toc-heading-level-3'><a class=\"ez-toc-link ez-toc-heading-34\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Ongoing_Projects\" >Igangv\u00e6rende projekter<\/a><\/li><\/ul><\/li><li class='ez-toc-page-1 ez-toc-heading-level-2'><a class=\"ez-toc-link ez-toc-heading-35\" href=\"https:\/\/aludiecasting.com\/da\/fordele-ved-at-bruge-zinklegeringer-i-hojtryksstobning\/#Conclusion\" >Konklusion:<\/a><\/li><\/ul><\/li><\/ul><\/nav><\/div>\n<h1><span class=\"ez-toc-section\" id=\"High-pressure_die_casting_uses_zinc_to_make_strong_parts_Zinc_alloys_are_easy_to_shape_in_this_process_This_makes_lots_of_parts_quickly_and_cheaply_Zinc_parts_made_this_way_are_strong_and_last_a_long_time\"><\/span><span style=\"color: #666666;font-size: 14px\">H\u00f8jtryksst\u00f8bning bruger zink til at lave st\u00e6rke dele. Zinklegeringer er nemme at forme i denne proces. Det g\u00f8r det muligt at lave mange dele hurtigt og billigt. Zinkdele fremstillet p\u00e5 denne m\u00e5de er st\u00e6rke og holder l\u00e6nge.<\/span><span class=\"ez-toc-section-end\"><\/span><\/h1>\n<p>Denne artikel deler flere dokumenterede fordele ved at bruge zinklegeringer i HPDC. Hvilket derfor g\u00f8r dem til et popul\u00e6rt valg for n\u00e6sten alle industrier.<\/p>\n<h2><span class=\"ez-toc-section\" id=\"What_is_Zinc_Alloy_Definition\"><\/span>Hvad er en zinklegering? Definition<span class=\"ez-toc-section-end\"><\/span><\/h2>\n<p>Zinklegeringer best\u00e5r mest af zink, men de indeholder ogs\u00e5 sm\u00e5 m\u00e6ngder af andre metaller som aluminium, magnesium og kobber. Disse tils\u00e6tninger g\u00f8r zinken st\u00e6rkere, mere fleksibel og mindre tilb\u00f8jelig til at ruste. For eksempel g\u00f8r tils\u00e6tning af aluminium zinken h\u00e5rdere, mens magnesium hj\u00e6lper den med at modst\u00e5 b\u00f8jning over tid. Disse oplysninger kommer fra videnskabelige unders\u00f8gelser og industrirapporter.<\/p>\n<p><iframe loading=\"lazy\" title=\"Zinklegering | Metallurgi | JEE | NEET || JEE ADVANCE , den enkleste m\u00e5de #yashsirchemistry\" width=\"1080\" height=\"608\" src=\"https:\/\/www.youtube.com\/embed\/OfSGm7yxKwc?feature=oembed\"  allow=\"accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share\" referrerpolicy=\"strict-origin-when-cross-origin\" allowfullscreen><\/iframe><\/p>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<div class=\"x1yztbdb\"><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x xt4736n x1havqas x1f0sm9e x12qp5cl xzsf02u x1yc453h xudqn12 x3x7a5m\">Her er nogle eksempler p\u00e5 specifikke datablade for zinklegeringer:<\/span><\/div>\n<\/div>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<h2 class=\"html-h2 xdj266r x11i5rnm x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd x1vvkbs x1heor9g x1qlqyl8 x1pd3egz x1a2a7pz x1yztbdb\" dir=\"auto\"><span class=\"ez-toc-section\" id=\"1_Zamak_3_Zinc-Aluminum_Alloy\"><\/span><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x x1ejgnnb xza2c7i x1apb90u x1215byi xzsf02u x1yc453h xtoi2st x3x7a5m\">1. Zamak 3 (zink-aluminium-legering)<\/span><span class=\"ez-toc-section-end\"><\/span><\/h2>\n<\/div>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<div class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs xyi19xy x1ccrb07 xtf3nb5 x1pc53ja x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1yztbdb x6ikm8r x10wlt62\">\n<div class=\"x1y332i5 xcwd3tp x1jyxor1 x39eecv x32lgdl x14dhn7w\">\n<table class=\"x1mwwwfo x1gukg7c x1n2onr6 x140o2bo xh8yej3\">\n<thead>\n<tr>\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Ejendom<\/th>\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">V\u00e6rdi<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Sammens\u00e6tning<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Zn: 95,5-96,5%, Al: 3,5-4,5%<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">T\u00e6thed<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">6,6-6,8 g\/cm\u00b3<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Smeltepunkt<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">380-390\u00b0C<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Tr\u00e6kstyrke<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">280-300 MPa<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Udbyttestyrke<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">200-220 MPa<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Forl\u00e6ngelse<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">10-15%<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">H\u00e5rdhed<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">80-90 HB<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<h2 class=\"html-h2 xdj266r x11i5rnm x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd x1vvkbs x1heor9g x1qlqyl8 x1pd3egz x1a2a7pz x1yztbdb\" dir=\"auto\"><span class=\"ez-toc-section\" id=\"2_ZA-12_Zinc-Aluminum-Copper_Alloy\"><\/span><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x x1ejgnnb xza2c7i x1apb90u x1215byi xzsf02u x1yc453h xtoi2st x3x7a5m\">2. ZA-12 (zink-aluminium-kobber-legering)<\/span><span class=\"ez-toc-section-end\"><\/span><\/h2>\n<\/div>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<div class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs xyi19xy x1ccrb07 xtf3nb5 x1pc53ja x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1yztbdb x6ikm8r x10wlt62\">\n<div class=\"x1y332i5 xcwd3tp x1jyxor1 x39eecv x32lgdl x14dhn7w\">\n<table class=\"x1mwwwfo x1gukg7c x1n2onr6 x140o2bo xh8yej3\">\n<thead>\n<tr>\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Ejendom<\/th>\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">V\u00e6rdi<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Sammens\u00e6tning<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Zn: 83,5-85,5%, Al: 11,0-13,0%, Cu: 1,0-2,0%<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">T\u00e6thed<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">6,3-6,5 g\/cm\u00b3<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Smeltepunkt<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">440-460\u00b0C<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Tr\u00e6kstyrke<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">370-410 MPa<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Udbyttestyrke<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">250-290 MPa<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Forl\u00e6ngelse<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">15-20%<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">H\u00e5rdhed<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">100-120 HB<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<h2 class=\"html-h2 xdj266r x11i5rnm x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd x1vvkbs x1heor9g x1qlqyl8 x1pd3egz x1a2a7pz x1yztbdb\" dir=\"auto\"><span class=\"ez-toc-section\" id=\"3_ZA-27_Zinc-Aluminum-Copper_Alloy\"><\/span><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x x1ejgnnb xza2c7i x1apb90u x1215byi xzsf02u x1yc453h xtoi2st x3x7a5m\">3. ZA-27 (zink-aluminium-kobber-legering)<\/span><span class=\"ez-toc-section-end\"><\/span><\/h2>\n<\/div>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<div class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs xyi19xy x1ccrb07 xtf3nb5 x1pc53ja x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1yztbdb x6ikm8r x10wlt62\">\n<div class=\"x1y332i5 xcwd3tp x1jyxor1 x39eecv x32lgdl x14dhn7w\">\n<table class=\"x1mwwwfo x1gukg7c x1n2onr6 x140o2bo xh8yej3\">\n<thead>\n<tr>\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Ejendom<\/th>\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">V\u00e6rdi<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Sammens\u00e6tning<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Zn: 78,5-80,5%, Al: 18,0-20,0%, Cu: 2,0-3,0%<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">T\u00e6thed<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">6,0-6,2 g\/cm\u00b3<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Smeltepunkt<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">500-520\u00b0C<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Tr\u00e6kstyrke<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">440-480 MPa<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Udbyttestyrke<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">320-360 MPa<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Forl\u00e6ngelse<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">10-15%<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">H\u00e5rdhed<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">130-150 HB<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<h2 class=\"html-h2 xdj266r x11i5rnm x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd x1vvkbs x1heor9g x1qlqyl8 x1pd3egz x1a2a7pz x1yztbdb\" dir=\"auto\"><span class=\"ez-toc-section\" id=\"4_Zinc-Copper-Titanium_Alloy_ZCT\"><\/span><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x x1ejgnnb xza2c7i x1apb90u x1215byi xzsf02u x1yc453h xtoi2st x3x7a5m\">4. Zink-kobber-titan-legering (ZCT)<\/span><span class=\"ez-toc-section-end\"><\/span><\/h2>\n<\/div>\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\n<div class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs xyi19xy x1ccrb07 xtf3nb5 x1pc53ja x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1yztbdb x6ikm8r x10wlt62\">\n<div class=\"x1y332i5 xcwd3tp x1jyxor1 x39eecv x32lgdl x14dhn7w\">\n<table class=\"x1mwwwfo x1gukg7c x1n2onr6 x140o2bo xh8yej3\">\n<thead>\n<tr>\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Ejendom<\/th>\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">V\u00e6rdi<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Sammens\u00e6tning<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Zn: 90,0-92,0%, Cu: 5,0-6,0%, Ti: 2,0-3,0%<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">T\u00e6thed<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">7,0-7,2 g\/cm\u00b3<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Smeltepunkt<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">420-440\u00b0C<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Tr\u00e6kstyrke<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">350-400 MPa<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Udbyttestyrke<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">220-250 MPa<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Forl\u00e6ngelse<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">15-20%<\/td>\n<\/tr>\n<tr>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">H\u00e5rdhed<\/td>\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">90-110 HB<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/div>\n<\/div>\n<\/div>\n<h2><span class=\"ez-toc-section\" id=\"Benefits_of_Zinc_Alloys_in_High-Pressure_Die_Casting\"><\/span>Fordele ved zinklegeringer i h\u00f8jtryksst\u00f8bning<span class=\"ez-toc-section-end\"><\/span><\/h2>\n<h3><span class=\"ez-toc-section\" id=\"Strength_and_Density_Comparison\"><\/span>Sammenligning af styrke og t\u00e6thed<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>De fleste zinklegeringer giver dig den bedste styrke. De fremstiller letv\u00e6gtsdele via trykst\u00f8bning under h\u00f8jt tryk. Standardmulighederne omfatter:<\/p>\n<ul>\n<li>Zamak 3 har en tr\u00e6kstyrke p\u00e5 op til 268 MPa med en volumendensitet p\u00e5 6,6 g\/cm\u00b3.<\/li>\n<li>Tilg\u00e6ngeligheden af tr\u00e6kstyrke i Zamak 5 Tensile er 331 MPa med en volumenmasse p\u00e5 6,6 g\/cm\u00b3.<\/li>\n<li>Zamak 2 har en tr\u00e6kstyrke p\u00e5 400 MPa og en massefylde p\u00e5 7 g\/cm\u00b3.<\/li>\n<\/ul>\n<h3><span class=\"ez-toc-section\" id=\"Effect_of_Magnesium_Mg_Addition\"><\/span>Effekt af tils\u00e6tning af magnesium (Mg)<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Sammens\u00e6tningen af magnesium (Mg) med zinklegeringer \u00f8ger tr\u00e6kstyrken. For eksempel giver tils\u00e6tning af 0,02% Mg til zink 268 MPa tr\u00e6kstyrke.<\/p>\n<p><a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/properties-zinc.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-18004 size-large\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/properties-zinc-1024x1024.jpg\" alt=\"Zinklegeringers egenskaber \" width=\"1024\" height=\"1024\" title=\"\" srcset=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/properties-zinc-1024x1024.jpg 1024w, https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/properties-zinc-980x980.jpg 980w, https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/properties-zinc-480x480.jpg 480w\" sizes=\"(min-width: 0px) and (max-width: 480px) 480px, (min-width: 481px) and (max-width: 980px) 980px, (min-width: 981px) 1024px, 100vw\" \/><\/a><\/p>\n<p>I mellemtiden \u00f8ger stigningen i mg-m\u00e6ngden til 0,08% ogs\u00e5 tr\u00e6kstyrken op til 310 MPa. P\u00e5 trods af det reducerer brugen af mere Mg-indhold i zink forl\u00e6ngelsen<strong>. <\/strong>Det betyder, at metallet kan v\u00e6re st\u00e6rkere, men ikke giver meget fleksibilitet.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Microstructure_and_Application\"><\/span>Mikrostruktur og anvendelse<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>N\u00e5r man tils\u00e6tter Mg til zink, strammer det mikrostrukturen. Det skyldes, at det danner fine korn og h\u00e5rde faser som \u03b7 og \u03b5. Alle disse \u00e6ndringer \u00f8ger ogs\u00e5 zinkens samlede styrke.<\/p>\n<p>Derudover kan en kombination af en meget lav m\u00e6ngde kobber (Cu) forbedre h\u00e5rdheden. For eksempel f\u00e5r Zamak 5 med 1% Cu en Brinell-h\u00e5rdhed p\u00e5 82 HB.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Impact_Resistance_and_Wear_Strength\"><\/span>Slagfasthed og slidstyrke<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Du ved, at zink ikke kun giver h\u00f8jere tr\u00e6kstyrke, men ogs\u00e5 modst\u00e5r slag. For eksempel har Zamak 2 en slagstyrke p\u00e5 43 J\/m, hvilket p\u00e5 en eller anden m\u00e5de er velegnet til dele, der uds\u00e6ttes for uventede kr\u00e6fter.<\/p>\n<p><a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-18.png\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-18005 size-full\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-18.png\" alt=\"Slagfasthed i zinklegering\" width=\"800\" height=\"500\" title=\"\" srcset=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-18.png 800w, https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-18-480x300.png 480w\" sizes=\"(min-width: 0px) and (max-width: 480px) 480px, (min-width: 481px) 800px, 100vw\" \/><\/a><\/p>\n<p>Derudover \u00f8ger en bel\u00e6gning (TiN eller nikkel) p\u00e5 zinklegeringer dens slidstyrke. Disse belagte legeringer fungerer s\u00e5 bedst til dele med h\u00f8j friktion. For eksempel mekaniske samlinger og l\u00e5semekanismer.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Lower_Melting_Point_and_Improved_Flow\"><\/span>Lavere smeltepunkt og bedre flow<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Zinklegeringer har lavere smeltepunkter (385 \u00b0C) sammenlignet med aluminium (660 \u00b0C). De smelter let og flyder j\u00e6vnt i formen. Under HPDC ligger formens temperatur typisk p\u00e5 150-200 \u00b0C. Der bruges et indspr\u00f8jtningstryk p\u00e5 mellem 500 og 1500 bar.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"High_Precision_and_Dimensional_Stability\"><\/span>H\u00f8j pr\u00e6cision og dimensionsstabilitet<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Normalt tilbyder zinklegeringer skarpt definerede udgange med tolerancer p\u00e5 \u00b10,05 mm. Dette toleranceniveau er bedre end aluminium (\u00b10,1 mm).<\/p>\n<p>Forbedringen af n\u00f8jagtigheden afh\u00e6nger ogs\u00e5 af legeringens h\u00f8je flydeevne og lave smeltepunkt. Derfor er zink absolut velegnet til fremstilling af fine, detaljerede dele af elektriske stik og kamerahuse.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Reduced_Defects_and_Improved_Mold_Filling\"><\/span>F\u00e6rre defekter og bedre formfyldning<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Blandt andre zinklegeringer kan Zamak 3 glat fylde tynde indre sektioner af formen. De giver f\u00e6rre defekter som f.eks. revner. Derfor kan du bruge dem til at lave dele, der ikke m\u00e5 variere og indeholde n\u00f8jagtige former.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Superior_Corrosion_Resistance\"><\/span>Overlegen korrosionsbestandighed<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Zamak 3 og 5 forhindrer p\u00e5 imponerende vis korrosion og rust. Under saltt\u00e5getest (ASTM B117) viser de f.eks. 3 gange bedre korrosionshastighed p\u00e5 &lt;0,1 mm\/\u00e5r end aluminium.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Protective_Layer_Formation\"><\/span>Dannelse af beskyttende lag<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Zinklegeringer danner et naturligt beskyttende lag (zinkcarbonat, zinkoxid), der kaldes patina eller passiveringer. Disse lag modst\u00e5r virkningerne af vand, jord eller luft. Derudover kan du \u00f8ge deres beskyttelsesevne ved blot at tilf\u00f8je 4%-aluminium.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Additional_Coatings_for_Durability\"><\/span>Ekstra bel\u00e6gninger for holdbarhed<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Som du ved, uds\u00e6ttes badev\u00e6relsesinventar ofte for vand eller s\u00e6be. I dette tilf\u00e6lde spiller bel\u00e6gninger som plettering og kromatin en vigtig rolle. De \u00f8ger zinkens holdbarhed.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Faster_Production\"><\/span>Hurtigere produktion<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Smeltet zink i matricer afk\u00f8les 30-50% hurtigere end aluminium og omdannes til en netform. Det kr\u00e6ver mindre afk\u00f8ling og \u00f8ger produktionshastigheden.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Superior_Surface_Finish_and_Reduced_Machining\"><\/span>Overlegen overfladefinish og reduceret bearbejdning<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p><a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-19.png\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-18006 size-full\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-19.png\" alt=\"Overfladebehandling af zinklegering\" width=\"800\" height=\"500\" title=\"\" srcset=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-19.png 800w, https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-19-480x300.png 480w\" sizes=\"(min-width: 0px) and (max-width: 480px) 480px, (min-width: 481px) 800px, 100vw\" \/><\/a><\/p>\n<p>Brug af zink i HPDC giver en overlegen overfladefinish (Ra 0,4-0,8 \u00b5m). Det giver dig ogs\u00e5 mulighed for at springe yderligere overfladebehandlinger over.<\/p>\n<p>Disse legeringer kan gengive meget fine detaljer (0,025 mm). Det betyder, at de er ideelle til logoer, tynde banderoler og dekorative projekter, der kr\u00e6ver mindre matchningstid.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Enhanced_Electrical_and_Thermal_Conductivity\"><\/span>Forbedret elektrisk og termisk ledningsevne<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Zinklegeringer giver dig 27% IACS elektrisk ledningsevne. Deres varmeledningsevne p\u00e5 113 W\/m-K er tilstr\u00e6kkelig til at forsvare sig mod intens varme. Det er vigtigt for elektroniske huse og k\u00f8lelegemer.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"High_Fatigue_Strength_for_Moving_Components\"><\/span>H\u00f8j udmattelsesstyrke for bev\u00e6gelige komponenter<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>N\u00e5r det g\u00e6lder gentagne belastninger, klarer en zinkudmattelsesstyrke p\u00e5 35-70 MPa dem bedre. Denne egenskab er is\u00e6r ideel til h\u00e6ngsler, l\u00e5se og mekaniske forbindelser.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Cost_Advantages_of_Zinc_Alloys\"><\/span>Omkostningsfordele ved zinklegeringer<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>N\u00e5r det g\u00e6lder overkommelige priser, f\u00f8rer zinklegeringer p\u00e5 grund af deres lavere forarbejdningsomkostninger end aluminium. Lad os se n\u00e6rmere p\u00e5 det i det f\u00f8lgende:<\/p>\n<ul>\n<li>Omkostningerne til zinklegering kan v\u00e6re forskellige i hver region, men de ligger typisk p\u00e5 $3\/kg (mod $4,5\/kg for aluminium).<\/li>\n<li>Deres v\u00e6rkt\u00f8jsomkostninger er 20% billigere, ogs\u00e5 fordi zink har en bedre holdbarhed end aluminiumsforme.<\/li>\n<li>De bruger mindre energi (30% lavere) p\u00e5 grund af deres lave smeltepunkt.<\/li>\n<\/ul>\n<h3><span class=\"ez-toc-section\" id=\"Sustainability_and_Environmental_Benefits\"><\/span>B\u00e6redygtighed og milj\u00f8m\u00e6ssige fordele<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Du kan genbruge zinkprodukter ved at genanvende dem og f\u00e5 90%-indhold. Til denne proces bruger zink 75% mindre energi og kan producere nyt materiale. Unders\u00f8gelser viser ogs\u00e5, at trykst\u00f8bning i zink effektivt reducerer CO\u2082-udledningen.<\/p>\n<h2><span class=\"ez-toc-section\" id=\"Applications_of_Zinc_Alloys_in_HPDC\"><\/span>Anvendelser af zinklegeringer i HPDC<span class=\"ez-toc-section-end\"><\/span><\/h2>\n<h3><span class=\"ez-toc-section\" id=\"1_Automotive_Precision_Parts_for_Better_Performance\"><\/span>1.   Biler: Pr\u00e6cisionsdele til bedre ydeevne<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Bilindustrien bruger zinklegeringer, is\u00e6r Zamak 5 med 1% Cu, til at fremstille karburatorhuse, br\u00e6ndstofpumper og spj\u00e6ldhuse.<\/p>\n<p><a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/automotive-zinc-die-casting.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-18007 size-large\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/automotive-zinc-die-casting-1024x1024.jpg\" alt=\"Zinkst\u00f8bning til biler\" width=\"1024\" height=\"1024\" title=\"\" srcset=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/automotive-zinc-die-casting-1024x1024.jpg 1024w, https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/automotive-zinc-die-casting-980x980.jpg 980w, https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/automotive-zinc-die-casting-480x480.jpg 480w\" sizes=\"(min-width: 0px) and (max-width: 480px) 480px, (min-width: 481px) and (max-width: 980px) 980px, (min-width: 981px) 1024px, 100vw\" \/><\/a><\/p>\n<p>De foretr\u00e6kker denne l\u00f8sning p\u00e5 grund af dens h\u00f8jere tr\u00e6kstyrke og evne til at stoppe slid. Det betyder derfor, at delene kan h\u00e5ndtere motorvarme og vibrationer. Disse legeringer reducerer ogs\u00e5 produktets v\u00e6gt og forbedrer br\u00e6ndstofeffektiviteten.<\/p>\n<p>N\u00e5r man ser p\u00e5 billedet, finder man ud af, hvor vigtig zinkst\u00f8bning er i bilkomponenter.<\/p>\n<p>Det viser, at du kan producere en r\u00e6kke vanskeligt formede dele. For eksempel tandhjul, h\u00e5ndtag og strukturel krop. D\u00f8rens interi\u00f8r demonstrerer ogs\u00e5 ud\u00f8vende kvalitet og finish.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"2_Aerospace_Lightweight_Reliable_Components\"><\/span>2.   Luft- og rumfart: Lette, p\u00e5lidelige komponenter<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Ved at bruge Zamak 2 med 0,1% Mg-st\u00f8begods f\u00e5r man enest\u00e5ende flybeslag og satellitkabinetter.<\/p>\n<p>Disse metaller forhindrer krybning og bevarer deres faktiske form under fuld belastning. Deres lave massefylde (6,6 g\/cm\u00b3) hj\u00e6lper ogs\u00e5 med at reducere delens v\u00e6gt og giver strukturel integritet.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"3_Construction_Durable_Hardware_for_Everyday_Use\"><\/span>3.   Konstruktion: Holdbar hardware til hverdagsbrug<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Zamak 3 er velegnet til fremstilling af forskellige design af d\u00f8rh\u00e5ndtag, l\u00e5se og tagbeslag. De giver dig mulighed for nemt at st\u00f8be dem til at lave dybt komplekse former til omkostningseffektive priser.<\/p>\n<p>Desuden er Zamak 3 fremragende til at modst\u00e5 korrosion. Derfor kan de ogs\u00e5 bruges udend\u00f8rs.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"4_Consumer_Goods_Stylish_and_Strong_Designs\"><\/span>4.   Forbrugsgoder: Stilfulde og st\u00e6rke designs<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Producenter bruger Zamak 5 til at fremstille gear til apparater, m\u00f8belh\u00e6ngsler og pyntelister. Brug af disse legeringer i HDPC-processen kan forbedre outputkvaliteten og deres overfladebehandling.<\/p>\n<p>Disse dele kan bevare fine detaljer. Ogs\u00e5 med hensyn til \u00e6stetiske parametre skaber zink et smukt udseende og fungerer godt.<\/p>\n<h2><span class=\"ez-toc-section\" id=\"Challenges_and_Future_Directions\"><\/span>Udfordringer og fremtidige retninger<span class=\"ez-toc-section-end\"><\/span><\/h2>\n<h3><span class=\"ez-toc-section\" id=\"Temperature_Limits_in_Die_Casting\"><\/span>Temperaturgr\u00e6nser i trykst\u00f8bning<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Zinklegeringer smelter meget hurtigt, normalt omkring 385-430 \u00b0C. Det er grunden til, at de ikke bruges i h\u00f8jtemperaturapplikationer over 150 \u00b0C.<\/p>\n<p><a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/zinc-alloy-temperature.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-18008 size-large\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/zinc-alloy-temperature-1024x1024.jpg\" alt=\"Temperaturkontrol af zinklegeringer\" width=\"1024\" height=\"1024\" title=\"\" srcset=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/zinc-alloy-temperature-1024x1024.jpg 1024w, https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/zinc-alloy-temperature-980x980.jpg 980w, https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/zinc-alloy-temperature-480x480.jpg 480w\" sizes=\"(min-width: 0px) and (max-width: 480px) 480px, (min-width: 481px) and (max-width: 980px) 980px, (min-width: 981px) 1024px, 100vw\" \/><\/a><\/p>\n<p>Desuden kan de kl\u00e6be til formoverflader og for\u00e5rsage slid p\u00e5 formen under h\u00f8je trykst\u00f8bningstemperaturer.<\/p>\n<p>P\u00e5 dette tidspunkt kan du anvende coating p\u00e5 matricer eller bruge bedre k\u00f8lesystemer for at stoppe disse problemer.<\/p>\n<p>Denne graf viser f.eks. matricetemperaturerne i HPDC for zink. Man kan se, at en forvarmet form (180 \u00b0C) hurtigt n\u00e5r en stabil temperatur sammenlignet med en kold form (30 \u00b0C). Disse temperaturer p\u00e5virker ogs\u00e5 cyklustiderne og st\u00f8bekvaliteten.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Oxidation_Risks_and_Solutions\"><\/span>Oxidationsrisici og l\u00f8sninger<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Zink kan ikke klare h\u00f8jere temperaturer; det har du opdaget tidligere. Men hvad sker der, n\u00e5r man opvarmer dem til over 400 \u00b0C? Grundl\u00e6ggende producerer zink zinkoxid (ZnO), som sv\u00e6kker fremstillingen.<\/p>\n<p>Disse emissioner kan virkelig skabe en stigning i por\u00f8sitet og overfladefejl. Derfor skal du bruge argongasafsk\u00e6rmning eller vakuumst\u00f8bning. Disse teknikker fjerner ilt under st\u00f8bningen og reducerer risikoen for oxidering.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Research_to_Improve_Zinc_Alloys\"><\/span>Forskning skal forbedre zinklegeringer<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Forskere ser frem til at forbedre zinklegeringers egenskaber. De tester deres resultater ved at tilf\u00f8je andre jordarter som titanium (Ti), jern (Fe) osv. For eksempel kan Zn-Ti-legeringer bedre h\u00e5ndtere h\u00f8jere temperaturer, op til 200 \u00b0C.<\/p>\n<p>Desuden hj\u00e6lper fremskridt inden for trykst\u00f8bemaskiner ogs\u00e5 med at reducere fejl med deres inkluderede funktion af tryksensorer i realtid.<\/p>\n<p>Mikrostrukturen i en Zn-1Fe-1Mg-legering p\u00e5 billedet viser dens forskellige skiftende aspekter. For eksempel afsl\u00f8rer sektion (a) den st\u00f8bte mikrostruktur med m\u00e6rkede faser af Zn, FeZn13 og Mg2Zn11.<\/p>\n<p>Ligeledes viser sektion (b) en homogeniseret mikrostruktur, der indeholder en bedre fordeling af Mg2Zn11<\/p>\n<p>C-delen viser XRD-m\u00f8nstre. Dette m\u00f8nster sammenligner de st\u00f8bte og homogeniserede pr\u00f8ver. For at bekr\u00e6fte tilstedev\u00e6relsen af indikationsfaser.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Zinc_in_Emerging_Technologies\"><\/span>Zink i nye teknologier<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>Producenterne udforsker zinklegeringens evner og afpr\u00f8ver dem i elektriske k\u00f8ret\u00f8jer. De laver is\u00e6r letv\u00e6gtsbatterier og motordele med dem. De opdager, at zink er velegnet p\u00e5 grund af sin gode elektriske ledningsevne og EMI-afsk\u00e6rmning.<\/p>\n<p>Ved at integrere additiv fremstilling (3D-printning) i deres HPDC-proces kan de desuden skabe objekter ved at danne lag af materialer.<\/p>\n<h3><span class=\"ez-toc-section\" id=\"Ongoing_Projects\"><\/span>Igangv\u00e6rende projekter<span class=\"ez-toc-section-end\"><\/span><\/h3>\n<p>University of Michigan og bilvirksomheder gennemf\u00f8rer flere unders\u00f8gelser. De fors\u00f8ger at finde frem til de bedste funktioner for zink-aluminium-kompositter i motorkomponenter.<\/p>\n<p>De fleste af institutterne, som f.eks. <a href=\"https:\/\/en.wikipedia.org\/wiki\/Fraunhofer_Society\" target=\"_blank\" rel=\"noopener\">Fraunhofer Institut (Tyskland)<\/a><strong>, <\/strong>fokuserer p\u00e5 udvikling af h\u00f8jhastighedsst\u00f8bning. S\u00e5 produktionen af zinkdele bliver hurtigere end traditionelle metoder.<\/p>\n<h2><span class=\"ez-toc-section\" id=\"Conclusion\"><\/span>Konklusion:<span class=\"ez-toc-section-end\"><\/span><\/h2>\n<p>Zinklegeringer i h\u00f8jtryksst\u00f8bning (HPDC) giver mange fordele. Det omfatter hurtigere produktion, h\u00f8j styrke, god overfladefinish, n\u00f8jagtighed osv. Disse legeringer bruger mindre energi og producerer ideelle dele til bilindustrien, elektronik og industrielle anvendelser.<\/p>\n<p>For hver branche har brug for en eller anden form for specialmateriale. Det kan give dem efterspurgte dele, holdbarhed og effektivitet. Derfor bliver forskerne ved med at opdage zinklegeringer for at bevise deres v\u00e6rdi.<\/p>\n<p>Til h\u00f8jtryksst\u00f8bning af zinklegering er Alu Die Casting et af de velrenommerede trykst\u00f8bningsfirmaer. Vi har stor erfaring inden for <a href=\"https:\/\/aludiecasting.com\/da\/vakuum-zink-trykstobning\/\">Trykst\u00f8bning af zink<\/a>Vi har gode kundeanmeldelser og certificeringer som ISO 9001. Vores virksomhed tilbyder overkommelige priser, gode leveringstider og ekspertise inden for den specifikke zinklegering. Kontakt os p\u00e5 info@aludiecasting.com<\/p>","protected":false},"excerpt":{"rendered":"<p>H\u00f8jtryksst\u00f8bning af zinklegeringer er en proces, hvor smeltet zinklegering presses ind i en form ved h\u00f8jt tryk for at skabe st\u00e6rke, detaljerede dele.  Det er en hurtig og effektiv m\u00e5de at lave mange identiske dele med god pr\u00e6cision. <\/p>","protected":false},"author":2,"featured_media":18009,"comment_status":"open","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_et_pb_use_builder":"","_et_pb_old_content":"<h1><span style=\"color: #666666;font-size: 14px\">High-pressure die casting uses zinc to make strong parts. Zinc alloys are easy to shape in this process. This makes lots of parts quickly and cheaply. Zinc parts made this way are strong and last a long time.<\/span><\/h1>\r\nThis article shares several proven benefits of using zinc alloys in HPDC. Which therefore makes them a popular choice for almost every industry.\r\n<h2>What is Zinc Alloy? Definition<\/h2>\r\nZinc alloys are mostly zinc, but they also have small amounts of other metals like aluminum, magnesium, and copper mixed in. These additions make the zinc stronger, more flexible, and less likely to rust. For example, adding aluminum makes the zinc harder, while magnesium helps it resist bending over time. This information comes from scientific studies and industry reports.\r\n\r\nhttps:\/\/www.youtube.com\/watch?v=OfSGm7yxKwc\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<div class=\"x1yztbdb\"><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x xt4736n x1havqas x1f0sm9e x12qp5cl xzsf02u x1yc453h xudqn12 x3x7a5m\">Here are some examples of specific zinc alloy datasheets:<\/span><\/div>\r\n<\/div>\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<h2 class=\"html-h2 xdj266r x11i5rnm x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd x1vvkbs x1heor9g x1qlqyl8 x1pd3egz x1a2a7pz x1yztbdb\" dir=\"auto\"><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x x1ejgnnb xza2c7i x1apb90u x1215byi xzsf02u x1yc453h xtoi2st x3x7a5m\">1. Zamak 3 (Zinc-Aluminum Alloy)<\/span><\/h2>\r\n<\/div>\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<div class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs xyi19xy x1ccrb07 xtf3nb5 x1pc53ja x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1yztbdb x6ikm8r x10wlt62\">\r\n<div class=\"x1y332i5 xcwd3tp x1jyxor1 x39eecv x32lgdl x14dhn7w\">\r\n<table class=\"x1mwwwfo x1gukg7c x1n2onr6 x140o2bo xh8yej3\">\r\n<thead>\r\n<tr>\r\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Property<\/th>\r\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Value<\/th>\r\n<\/tr>\r\n<\/thead>\r\n<tbody>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Composition<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Zn: 95.5-96.5%, Al: 3.5-4.5%<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Density<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">6.6-6.8 g\/cm\u00b3<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Melting Point<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">380-390\u00b0C<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Tensile Strength<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">280-300 MPa<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Yield Strength<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">200-220 MPa<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Elongation<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">10-15%<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Hardness<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">80-90 HB<\/td>\r\n<\/tr>\r\n<\/tbody>\r\n<\/table>\r\n<\/div>\r\n<\/div>\r\n<\/div>\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<h2 class=\"html-h2 xdj266r x11i5rnm x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd x1vvkbs x1heor9g x1qlqyl8 x1pd3egz x1a2a7pz x1yztbdb\" dir=\"auto\"><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x x1ejgnnb xza2c7i x1apb90u x1215byi xzsf02u x1yc453h xtoi2st x3x7a5m\">2. ZA-12 (Zinc-Aluminum-Copper Alloy)<\/span><\/h2>\r\n<\/div>\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<div class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs xyi19xy x1ccrb07 xtf3nb5 x1pc53ja x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1yztbdb x6ikm8r x10wlt62\">\r\n<div class=\"x1y332i5 xcwd3tp x1jyxor1 x39eecv x32lgdl x14dhn7w\">\r\n<table class=\"x1mwwwfo x1gukg7c x1n2onr6 x140o2bo xh8yej3\">\r\n<thead>\r\n<tr>\r\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Property<\/th>\r\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Value<\/th>\r\n<\/tr>\r\n<\/thead>\r\n<tbody>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Composition<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Zn: 83.5-85.5%, Al: 11.0-13.0%, Cu: 1.0-2.0%<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Density<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">6.3-6.5 g\/cm\u00b3<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Melting Point<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">440-460\u00b0C<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Tensile Strength<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">370-410 MPa<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Yield Strength<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">250-290 MPa<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Elongation<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">15-20%<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Hardness<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">100-120 HB<\/td>\r\n<\/tr>\r\n<\/tbody>\r\n<\/table>\r\n<\/div>\r\n<\/div>\r\n<\/div>\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<h2 class=\"html-h2 xdj266r x11i5rnm x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd x1vvkbs x1heor9g x1qlqyl8 x1pd3egz x1a2a7pz x1yztbdb\" dir=\"auto\"><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x x1ejgnnb xza2c7i x1apb90u x1215byi xzsf02u x1yc453h xtoi2st x3x7a5m\">3. ZA-27 (Zinc-Aluminum-Copper Alloy)<\/span><\/h2>\r\n<\/div>\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<div class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs xyi19xy x1ccrb07 xtf3nb5 x1pc53ja x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1yztbdb x6ikm8r x10wlt62\">\r\n<div class=\"x1y332i5 xcwd3tp x1jyxor1 x39eecv x32lgdl x14dhn7w\">\r\n<table class=\"x1mwwwfo x1gukg7c x1n2onr6 x140o2bo xh8yej3\">\r\n<thead>\r\n<tr>\r\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Property<\/th>\r\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Value<\/th>\r\n<\/tr>\r\n<\/thead>\r\n<tbody>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Composition<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Zn: 78.5-80.5%, Al: 18.0-20.0%, Cu: 2.0-3.0%<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Density<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">6.0-6.2 g\/cm\u00b3<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Melting Point<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">500-520\u00b0C<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Tensile Strength<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">440-480 MPa<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Yield Strength<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">320-360 MPa<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Elongation<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">10-15%<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Hardness<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">130-150 HB<\/td>\r\n<\/tr>\r\n<\/tbody>\r\n<\/table>\r\n<\/div>\r\n<\/div>\r\n<\/div>\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<h2 class=\"html-h2 xdj266r x11i5rnm x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd x1vvkbs x1heor9g x1qlqyl8 x1pd3egz x1a2a7pz x1yztbdb\" dir=\"auto\"><span class=\"x1lliihq x1plvlek xryxfnj x1n2onr6 x1ji0vk5 x18bv5gf x193iq5w xeuugli x1fj9vlw x13faqbe x1vvkbs x1s928wv xhkezso x1gmr53x x1cpjm7i x1fgarty x1943h6x x1ejgnnb xza2c7i x1apb90u x1215byi xzsf02u x1yc453h xtoi2st x3x7a5m\">4. Zinc-Copper-Titanium Alloy (ZCT)<\/span><\/h2>\r\n<\/div>\r\n<div class=\"html-div xdj266r x11i5rnm xat24cr x1mh8g0r xexx8yu x4uap5 x18d9i69 xkhd6sd\">\r\n<div class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs xyi19xy x1ccrb07 xtf3nb5 x1pc53ja x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1yztbdb x6ikm8r x10wlt62\">\r\n<div class=\"x1y332i5 xcwd3tp x1jyxor1 x39eecv x32lgdl x14dhn7w\">\r\n<table class=\"x1mwwwfo x1gukg7c x1n2onr6 x140o2bo xh8yej3\">\r\n<thead>\r\n<tr>\r\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Property<\/th>\r\n<th class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xljulmy x7wzq59 x13vifvy xpeg176 x1b1u5bx x95da8x x18qtup9 xz9dl7a xn6708d xsag5q8 x1ye3gou\">Value<\/th>\r\n<\/tr>\r\n<\/thead>\r\n<tbody>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Composition<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Zn: 90.0-92.0%, Cu: 5.0-6.0%, Ti: 2.0-3.0%<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Density<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">7.0-7.2 g\/cm\u00b3<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Melting Point<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">420-440\u00b0C<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Tensile Strength<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">350-400 MPa<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Yield Strength<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">220-250 MPa<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Elongation<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">15-20%<\/td>\r\n<\/tr>\r\n<tr>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">Hardness<\/td>\r\n<td class=\"x8cjs6t x1ch86jh x80vd3b xckqwgs x13fuv20 xu3j5b3 x1q0q8m5 x26u7qi x178xt8z xm81vs4 xso031l xy80clv x1mzt3pk xt4736n x1havqas x1f0sm9e x12qp5cl xz9dl7a xn6708d xsag5q8 x1ye3gou\">90-110 HB<\/td>\r\n<\/tr>\r\n<\/tbody>\r\n<\/table>\r\n<\/div>\r\n<\/div>\r\n<\/div>\r\n<h2>Benefits of Zinc Alloys in High-Pressure Die Casting<\/h2>\r\n<h3>Strength and Density Comparison<\/h3>\r\nMost of the zinc alloys give you the best strength. They make lightweight parts via high-pressure die casting. The standard options include:\r\n<ul>\r\n \t<li>Zamak 3 offers tensile strength up to 268 MPa with density volume of 6.6 g\/cm\u00b3<\/li>\r\n \t<li>The availability of tensile strength in Zamak 5 Tensile is 331 MPa with a mass of volume 6.6 g\/cm\u00b3<\/li>\r\n \t<li>Zamak 2 provides 400 MPa tensile strength along with a density of 7 g\/cm\u00b3.<\/li>\r\n<\/ul>\r\n<h3>Effect of Magnesium (Mg) Addition<\/h3>\r\nThe composition of magnesium (Mg) with zinc alloys increases tensile strength. For example, adding 0.02% Mg to zinc offers 268 MPa tensile strength.\r\n\r\n<a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/properties-zinc.jpg\"><img class=\"alignnone wp-image-18004 size-large\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/properties-zinc-1024x1024.jpg\" alt=\"zinc alloys properties \" width=\"1024\" height=\"1024\" \/><\/a>\r\n\r\nMeanwhile, the increase in mg amount to 0.08% also raises tensile strength up to\u00a0 310 MPa. In spite of that, using more Mg content in zinc reduces elongation<strong>. <\/strong>This means the metal can be stronger but does not offer much flexibility.\r\n<h3>Microstructure and Application<\/h3>\r\nWhen you add Mg to zinc, it tightens its microstructure. This is because it forms fine grains and hard phases like \u03b7 and \u03b5. All these changes also increase the overall zinc strength.\r\n\r\nAdditionally, combining a very low amount of copper (Cu) can better the hardness. For instance, Zamak 5 with 1% Cu gets a Brinell hardness of 82 HB.\r\n<h3>Impact Resistance and Wear Strength<\/h3>\r\nYou know, zinc not only gives higher tensile strength but also resists impact. For instance, Zamak 2 has 43 J\/m impact strength, which is somehow well-suited for parts exposed to unexpected forces.\r\n\r\n<a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-18.png\"><img class=\"alignnone wp-image-18005 size-full\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-18.png\" alt=\"zinc alloy impact resistance\" width=\"800\" height=\"500\" \/><\/a>\r\n\r\nAdditionally, applying a coating (TiN or nickel) on zinc alloys increases its wear resistance. These coated alloys then work best for high-friction parts. For instance, mechanical joints and locking mechanisms.\r\n<h3>Lower Melting Point and Improved Flow<\/h3>\r\nZinc alloys have lower melting points (385\u00b0C) as compared to aluminum (660\u00b0C). They easily melt and flow evenly in the mould. Typically, during HPDC, the die temperature ranges from 150-200\u00b0C. It uses injection pressure between 500 and 1500 bar.\r\n<h3>High Precision and Dimensional Stability<\/h3>\r\nUsually, zinc alloys offer sharply defined outputs with tolerances of \u00b10.05 mm. This tolerance level is better than aluminum (\u00b10.1 mm).\r\n\r\nThe improvement in accuracy also depends on the alloy's high fluidity and low melting point. This is why zinc is definitely suitable for making fine, detailed parts of electrical connectors and camera housings.\r\n<h3>Reduced Defects and Improved Mold Filling<\/h3>\r\nAmong other zinc alloys, Zamak 3 can smoothly fill thin mold inner sections. They make fewer defects, like cracks. Therefore, you can use them to make parts that must not be varied and contain exact shapes.\r\n<h3>Superior Corrosion Resistance<\/h3>\r\nZamak 3 and 5 impressively stop affecting corrosion or rust. For instance, during salt spray tests (ASTM B117), they show 3 times better corrosion rate of &lt;0.1 mm\/year than aluminium\r\n<h3>Protective Layer Formation<\/h3>\r\nZinc alloys form a natural protective layer (zinc carbonate, zinc oxide) called patina or passivations. These layers resist the effects of water, soil or air. Additionally, you can increase their protection capability by just adding 4% aluminum.\r\n<h3>Additional Coatings for Durability<\/h3>\r\nAs you know, bathroom fixtures are exposed to water or soap frequently. In this case, coatings such as plating and chromatin play a key role. They increase the durability of zinc.\r\n<h3>Faster Production<\/h3>\r\nMolten zinc in dies cools down 30\u201350% faster than aluminum, converting into a net-shape. They take less cooling and increase production rates.\r\n<h3>Superior Surface Finish and Reduced Machining<\/h3>\r\n<a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-19.png\"><img class=\"alignnone wp-image-18006 size-full\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/Add-a-heading-19.png\" alt=\"zinc alloy surface finishing\" width=\"800\" height=\"500\" \/><\/a>\r\n\r\nUsing zinc in HPDC produces superior surface finishes ( Ra 0.4\u20130.8 \u00b5m). That also let you skip the further surface treatments.\r\n\r\nThese alloys can replicate very fine details (0.025 mm). That means they are ideal for logos, thin wales and decorative projects needing less matching time.\r\n<h3>Enhanced Electrical and Thermal Conductivity<\/h3>\r\nZinc alloys give you 27% IACS electrical conductivity. Their thermal conductivity of 113 W\/m\u00b7K is sufficient to defend against intense heat. That is important for electronic housing and heat sinks.\r\n<h3>High Fatigue Strength for Moving Components<\/h3>\r\nRegarding repeated stress, a zinc fatigue strength of 35\u201370 MPa handles them better. This property is mainly ideal for hinges, locks, and mechanical linkages.\r\n<h3>Cost Advantages of Zinc Alloys<\/h3>\r\nIn the case of affordability, zinc alloys lead because of their lower processing costs than aluminum. Let's break it down in the following:\r\n<ul>\r\n \t<li>The zinc alloy cost can be different in each region; however, it typically ranges from $3\/kg (vs. $4.5\/kg for aluminum).<\/li>\r\n \t<li>Their tooling cost is 20% cheaper also because of the better lastability of zinc than aluminum dies.<\/li>\r\n \t<li>They use less energy (30% lower) due to their low melting point.<\/li>\r\n<\/ul>\r\n<h3>Sustainability and Environmental Benefits<\/h3>\r\nYou can reuse zinc products by recycling them and getting 90% content. For this process, zinc consumes 75% less energy and can produce new material. Also, studies show zinc die casting effectively reduces CO\u2082 emissions.\r\n<h2>Applications of Zinc Alloys in HPDC<\/h2>\r\n<h3>1.\u00a0\u00a0 Automotive: Precision Parts for Better Performance<\/h3>\r\nThe automotive industry uses zinc alloys, especially make Zamak 5 with 1% Cu, to make carburettor housings, fuel pumps, and throttle bodies.\r\n\r\n<a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/automotive-zinc-die-casting.jpg\"><img class=\"alignnone wp-image-18007 size-large\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/automotive-zinc-die-casting-1024x1024.jpg\" alt=\"zinc die casting automotive\" width=\"1024\" height=\"1024\" \/><\/a>\r\n\r\nThey prefer this option because of its higher tensile strength and ability to stop wear. This, therefore, means that the parts can handle engine heat and vibrations. These alloys also reduce product weight and improve fuel efficiency.\r\n\r\nLooking at the image, you will find out how important zinc die-casting is in automotive components.\r\n\r\nIt shows you can produce a variety of difficult-shaped parts. For instance, gears, levers and structural body. The door interior also demonstrates executive quality and finishing.\r\n<h3>2.\u00a0\u00a0 Aerospace: Lightweight, Reliable Components<\/h3>\r\nUsing Zamak 2 with 0.1% Mg die casters produces exceptional aircraft brackets and satellite housings.\r\n\r\nThese metals prevent creep, maintaining their actual shape under full stress. Also, their low density (6.6 g\/cm\u00b3) helps in reducing part weight and gives structural integrity.\r\n<h3>3.\u00a0\u00a0 Construction: Durable Hardware for Everyday Use<\/h3>\r\nThe Zamak 3 option works well for making different door handle designs, locks and roof fittings. They allow you to cast them easily for making deeply complex shapes at cost-effective prices.\r\n\r\nMoreover, Zamak 3 resists corrosion excellently. That is why they can be used for outdoor applications, too.\r\n<h3>4.\u00a0\u00a0 Consumer Goods: Stylish and Strong Designs<\/h3>\r\nManufacturers use Zamak 5 to make appliance gears, furniture hinges, and decorative trims. Using these alloys in the HDPC process can improve the output quality and their surface finishing.\r\n\r\nThese parts can retain fine details. Also, in regard to aesthetic parameters, zinc creates beautiful appearances and functions well.\r\n<h2>Challenges and Future Directions<\/h2>\r\n<h3>Temperature Limits in Die Casting<\/h3>\r\nZinc alloys melt very fast, usually around 385\u2013430\u00b0C. This becomes the reason for not using them in high-temperature applications above 150\u00b0C.\r\n\r\n<a href=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/zinc-alloy-temperature.jpg\"><img class=\"alignnone wp-image-18008 size-large\" src=\"https:\/\/aludiecasting.com\/wp-content\/uploads\/2025\/02\/zinc-alloy-temperature-1024x1024.jpg\" alt=\"temperature control zinc alloys\" width=\"1024\" height=\"1024\" \/><\/a>\r\n\r\nFurthermore, they can stick to mold surfaces, and cause die wear under high die-casting temperatures.\r\n\r\nAt this point, you can apply coating on dies or use better cooling systems to stop these issues.\r\n\r\nFor example, this graph shows the die temperatures in HPDC for zinc. You can see a preheated die (180\u00b0C) quickly reach a stable temperature compared to a cold one (30\u00b0C). These temperatures are also impacting cycle times and casting quality.\r\n<h3>Oxidation Risks and Solutions<\/h3>\r\nZinc does not handle higher temperatures; you have discovered this earlier. But what happens when you heat them above 400\u00b0C? Basically, zinc produces zinc oxide (ZnO), which weakens the manufacturing.\r\n\r\nThese emissions can really make a surge in porosity and surface defects. Therefore, you must use argon gas shielding or vacuum die casting. These techniques will remove oxygen during casting and reduce oxidation risks.\r\n<h3>Research to Improve Zinc Alloys<\/h3>\r\nScientists are looking forward to improving zinc alloys capabilities. They are testing their results by adding other earth elements like titanium (Ti), iron (Fe), etc. For example, Zn-Ti alloy can handle higher temperatures better, up to 200\u00b0C.\r\n\r\nFurthermore, advancements in die-casting machines also help reduce defects with their included function of real-time pressure sensors.\r\n\r\nThe microstructure of a Zn-1Fe-1Mg alloy in the image shows its various changing aspects. For instance, section (a) reveals as-cast microstructure with labeled phases of Zn, FeZn13, and Mg2Zn11.\r\n\r\nLikewise, section (b) indicates a homogenized microstructure containing a better distribution of Mg2Zn11\r\n\r\nThe C part is showing XRD patterns. This pattern compares the as-cast and homogenized samples. So that to confirm the presence of indicial phases.\r\n<h3>Zinc in Emerging Technologies<\/h3>\r\nThe manufacturers explore zinc alloy abilities, checking them in electric vehicle. In particular, they make lightweight battery housing and motor parts with them. They discover zinc suitability due to its good electrical conductivity and EMI shielding.\r\n\r\nAdditionally, integrating additive manufacturing (3D printing) in their HPDC process allows them to create objects successfully by forming layers of materials.\r\n<h3>Ongoing Projects<\/h3>\r\nThe University of Michigan and automotive companies conduct several studies. They are trying to discover the best functions of zinc-aluminum composites in engine components.\r\n\r\nAlso, most of the institutes, like the <a href=\"https:\/\/en.wikipedia.org\/wiki\/Fraunhofer_Society\">Fraunhofer Institute (Germany)<\/a><strong>, <\/strong>are focusing on high-speed die-casting development. So the production of zinc parts becomes faster than traditional methods.\r\n<h2>Conclusion:<\/h2>\r\nZinc alloys in high-pressure die-casting (HPDC) offer numerous benefits. That includes faster production, high strength, good surface finish, accuracy, etc. These alloys use less energy and produce ideal parts for automotive, electronics, and industrial applications.\r\n\r\nBecause each industry needs some kind of special material. That can provide them with demand-stated parts, durability, and efficiency. Therefore, researchers keep discovering zinc alloys to prove their value.\r\n\r\nFor zinc alloy high-pressure die casting, Alu Die Casting is one of the reputable die casting companies. We have extensive experience in <a href=\"https:\/\/aludiecasting.com\/vacuum-zinc-die-casting\/\">zinc die casting<\/a>, have good customer reviews, and certifications like ISO 9001. Our company offers affordable pricing, good lead times, and expertise in the specific zinc alloy. 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