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ENAC-AlSi12 (a) G-AlSi12 (Germany, DIN, WNr ) - European (EU, EN) and wordwide equivalent grades. Aluminium and aluminium alloys. These comparison table is only
contactAlSi12 LM6-M LM20-M 5079 305 YZAlSi10Mg YL104 - ADC3 AЛ4 AЛ9 ENAC-43400 A-S9G A-S10G AlSi10Mg - - 309 YZ AlSi9Cu4 YL112 3599 323 ZAlSi7MgA ZL101A Al-Si7Mg AC4CH AЛ9-1 ENAC-42100 A-S7G03 AlSi7Mg 2L99 8024 336 ZAlSi12 ...
contact201812 · 14 ADC14Al-Si-Cu-Mg ,,,。 Si9 A1Si9 Al-Si ,,,。 Si12Fe AlSi12(Fe) Al-Si ,
contact201792 · Al-Si-Cu- (Mg,Ni) GB ISO JIS ΓOCT EN NF DIN BS UNI AA SAE ZAlSi5Cu1Mg ZL105 Al-Si5Cu1Mg AC4D AЛ5 ENAC-45300 2A-S5U AlSi5 (Cu) (3.21.34) LM16 3600 355.0 322 ZAlSi5Cu1MgA ZL105A - - AЛ5-1 ...
contactRepresented are the alloy components of silicon (Si), iron (Fe), copper (Cu), manganese (Mn), magnesium (Mg), nickel (Ni), zinc (Zn) and titanium (Ti); as well as some material properties: yield strength, tensile strength, elongation at break, Brinell hardness, bending strength and density. In another view, possible uses and examples as well as ...
contact2022813 · 4032 (4032-T6, AlSi12.5MgCuNi) 40324000。。 T6 。,,。4032 (AA) 。 ...
contact2022716 · AlSi12 has a high strength-to-weight ratio and good corrosion resistance properties. As a result, it has potential for use in the automotive and aerospace industries. However, AlSi12 is difficult to process using conventional manufacturing technologies because of its characteristics of having high thermal conductivity and reflectivity and
contact2017524 · Parmeshwar Ritapure. Yashwant R. Kharde. The objective of this experimental work was to study the sliding wear behavior of aluminum-zinc alloy based metal matrix composite (MMC) reinforced with ...
contactAlSi12 LM6-M LM20-M 5079 305 YZAlSi10Mg YL104 - ADC3 AЛ4 AЛ9 ENAC-43400 A-S9G A-S10G AlSi10Mg - - 309 YZ AlSi9Cu4 YL112 3599 323 ZAlSi7MgA ZL101A Al-Si7Mg AC4CH AЛ9-1 ENAC-42100 A-S7G03 AlSi7Mg 2L99 8024 336 ZAlSi12 ...
contactENAC-AlSi12 (a) G-AlSi12 (Germany, DIN, WNr ) - European (EU, EN) and wordwide equivalent grades. Aluminium and aluminium alloys. These comparison table is only intended as an indication of the closest khown equivalent grades. The source standarts should always be checked for the specific purpose for each material, in case of doubt.
contact201639 · ZAlSi12Cu1Mg1Ni1(ZL109) Al-Si12Cu G-AlSi12(Cu) LM13 A-S13 AC3A A413 ZAlSi5Cu6Mg(ZL110) Al-Si6Cu4 G-AlSi6Cu4 LM21 — — 308 ZAlSi9Gu2Mg(ZL111) Al-Si10Mg G-AlSi8Cu3 LM2 A-S9G AC4B 354
contact2022417 · Q2:AlSi12Cu. -,,。. aluminum-silicon cast aluminum alloy 。. 3××.×,ZL-1××, ...
contact2022716 · AlSi12 has a high strength-to-weight ratio and good corrosion resistance properties. As a result, it has potential for use in the automotive and aerospace industries. However, AlSi12 is difficult to process using conventional manufacturing technologies because of its characteristics of having high thermal conductivity and reflectivity and
contact2018418 · Selective laser melting (SLM) is a layer-by-layer metal additive manufacturing process. The parts produced using SLM may be subjected to severe dynamic loading conditions during service. Very little published research exists in understanding the response of 3D printed metal parts subjected to high strain rate loading. The present
contact2017523 · AlSi12 11.2 0.10 0.10 0.42 0.45 0.10 0.08 0.12 0.10 ball The alloy was melted in a ceramic crucible in an laboratory electric furnace Nabertherm 30 – 3000. The treatment process was performed with Cu, CuAl10Fe3Mn2 and mixtures with 50 % CuAl10Fe3Mn2 + 50 % Al12Si. The alloy was melted at 750°C for 8 minutes. ...
contactGrade : ENAC-AlSi12(a) Number: ENAC-44200 Classification: Aluminium alloy for casting Standard: EN 1706: 2010 Aluminium and aluminium alloys.
contact2018514 · AlSi12 ala ş ımına 0.540 g Ag ilave edilmi ş tir. Ala ş ımın kompozisyonunun tamamen homojen olabilmesi için 750 ºC sıcaklıkta 10 dakika bekletilmi ş tir.
contact2015520 · G-AlSi12 3.2581.01 EN-AC-44100 230 Zusammensetzung Massenanteile in % Si % Fe % Cu % Mn % Mg % ZN %T iN n PB 10, 5 - 13,5 0,5 0,1- 4 max. % Fes tigkeitswerte S treckgrenze Rp 0,2 N/mm 2 Zugfestigkeit RM N/mm 2 B ruc hd eng A % i l ä HB 5/ - 3 Biegewechsel-F es igk BW N/mm 2 70 - 100 150 - 200 5 -1 04 6 Phys ikalische
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