AlxIn1−xSb Semiconductor Alloy Thermal Properties for Emerging Green Engineering Materials

Significance of AlxIn1−xSb as a Green Engineering Material according to the melting point changes related to Al dopant levels (x) of 0.00, 0.10, 0.15, 0.20, 0.25, 0.30, 0.35, 0.40, 0.45, 0.50 with Trend of Melting Point in AlxIn1−xSb for Eco- Friendly Engineering Materials. This information shows that Al doping (x) improves the thermal stability of the AlxIn1−xSb alloy, positioning it as an excellent option for green engineering uses in high-temperature and thermally challenging conditions. Importance of Green Engineering explains thermal stability rises with higher Al levels, suggesting enhanced durability and heat resistance. Beneficial in devices with low energy loss that function at high temperatures. Substitutes harmful or less eco-friendly materials in: Infrared detectors Thermo electric devices, Photonic components that can with stand high temperatures. The melting point rises nearly linearly from 798 °C to 1064 °C as x progresses from 0 to 0.5 demonstrates the robustness of Al–Sb bonds compared to In–Sb bonds Improves the recyclability of materials and their durability over time, in accordance with sustainable material design concepts. Melting point date ranges from 798 to 851.2, 877.8, 904.4, 931, 957.6, 984.2, 1010.8, 1037.4 and 1064. Thermal stability rises with higher Al content, signifying enhanced longevity and heat tolerance make it beneficial in low-energy-loss equipment functioning at high temperatures. Substitutes harmful or less eco-friendly materials in Infrared detectors, Thermo electric devices, Heat-resistant photonic elements As x rises from 0 to 0.5, the melting point grows nearly linearly from 798 °C to 1064 °C Indicates the robustness of Al–Sb bonds compared to Bonds Improves the recyclability of materials and their long-term effectiveness, in accordance with sustainable material design guidelines.