Alloy Composition Design

Based on the principles of the periodic table, high-thermal-conductivity and high-strength alloying elements are carefully selected and precisely proportioned to achieve optimal alloy performance.

Principles of Casting Processes

Employing vacuum melting and precision casting techniques minimises porosity and inclusions, enhances material density, and ensures products are ultra-thin with stable performance.

Analysis of Heat Transfer Mechanisms

Through thermal conduction theory, analyse the thermal conduction pathways within the alloy, optimise its microstructure, and enhance thermal conductivity efficiency.

Enhanced Mechanism Exploration

Investigate mechanisms such as solid solution strengthening and precipitation strengthening, combined with microstructural control, to achieve a significant enhancement in alloy strength.

Microstructural Regulation

Employing advanced electron microscopy techniques, the microstructure of the alloy is observed and analysed. Through process adjustments, the microstructure is homogenised and refined.