Aluminum Master Alloy
Aluminum master alloy is a traditional product mainly used to adjust the composition of aluminum melting items. Some simple elements’ melting point is high and not easy to melt, so, will need this master alloy’s help.
The melting method and aluminum are used to form an intermediate, and the melting temperature of this intermediate is significantly reduced, so that some metal elements with a higher melting temperature are added to the aluminum liquid at a lower temperature to adjust the element content of the melt.
Shape:
Ingot,Lump
Features:
A. The composition is uniform and the melting temperature is low
B, easy to break, easy to join
C. High ingredient content, easy to absorb
Overview
Category:
Name | Grade | Elements% | Application | Add Content | Melting | Feature |
---|---|---|---|---|---|---|
AluminumCopper Alloy | AlCu50 | Cu48~52 | Help adjust alloy elements | As request | 570~600 | Crisp |
Aluminum Silicon Alloy | AlSi20 | Si18~20 | 700~800 | Crisp | ||
Aluminum manganese alloy | AlMn10 | Mn9~11 | 770~830 | Tough | ||
Aluminum manganese alloy | AlMn20 | Mn18~22 | 780~850 | Tough | ||
Aluminum titanium alloy | AlTi5 | Ti4~6 | Grain refinement, improve plasticity | 1020~1070 | Easy to segregate | |
Aluminum titanium alloy | AlTi10 | Ti9~11 | 1020~1070 | Easy to segregate | ||
Aluminum Nickel Alloy | AlNi10 | Ni9~11 | Improve plasticity and performance | 680~730 | Tough | |
Aluminum chrome alloy | AlCr5 | Gr4~6 | 900~1000 | Easy to segregate | ||
Aluminum chrome alloy | AlCr10 | Gr9~11 | 900~1000 | Easy to segregate | ||
Aluminum chrome alloy | AlCr20 | Gr18~22 | 910~1020 | Easy to segregate | ||
Aluminum Zirconium Alloy | AlZr5 | Zr4~6 | 800~850 | Easy to segregate | ||
Aluminum antimony alloy | AlSb4 | Sb3~5 | 660 | Easy to segregate | ||
Aluminum antimony alloy | AlSb10 | Sb9~11 | 660 | Easy to segregate | ||
Aluminum iron alloy | AlFe20 | Fe18~22 | 1020 | Crisp | ||
Aluminum beryllium alloy | AlBe1 | BBe0.9~1.2 | 820 | Tough | ||
Aluminum beryllium alloy | AlBe3 | Be2~4 | 820 | Tough | ||
Aluminum beryllium alloy | AlBe5 | Be4.5~5.5 | 820 | Tough | ||
Aluminum boron alloy | AlB3 | B2.5~3.5 | Reduce resistivity, improve conductivity, grain refinement | 2~4‰ | 800 | Tough |
AlTiB(block, wire, rod) | AlTi5B1 | Ti4.5~6B0.9~1.2 | 0.5~2‰ | 680 | Easy to segregate | |
Aluminum Rare Earth Alloy | AlRe10 | Re9~11 | grain refinement | 2~3‰ | 800 | Easy to segregate |
Al-Ti-B Rare Earth Alloy | AlTi5B1Re10 | Ti5B1Re10 | 1~3‰ | 800 | Easy to segregate | |
Aluminum Titanium Carbon Alloy | AlTi5C0.2 | Ti5C0.2 | 1~2‰ | 1020~1070 | Easy to segregate | |
Aluminum strontium alloy | AlSr10 | Sr9~11 | For the long-term deterioration of aluminum-silicon alloys with silicon content below 13% | 1~2‰ | 680~740 | Easy to segregate |
Aluminum yttrium alloy | AlY5 | Y4~6 | Improve plasticity | 1~2‰ | 740~800 | Easy to segregate |
Aluminum vanadium alloy | AlV5 | V4.5~5.5 | increase liquidity | 2~3‰ | 700~720 | Easy to segregate |
Aluminum bismuth alloy | AlBi10 | Bi9~11 | Adjust alloy composition to increase fluidity | As request | 650 | Easy to segregate |