NN1551 Nano-Aluminium-Silicon alloy powder (CAS No. 1314-23-4)

Nano-Aluminium-Silizium Alloy Powder Description

Nano-Aluminium-Silizium Alloy Powder consists of nanoscale aluminium and silicon particles. It exhibits a high strength-to-weight ratio as measured at the nanoscale, making it suitable for lightweight, high-strength applications. The addition of silicon increases thermal conductivity, thereby improving heat dissipation in electronic and thermal management systems. The alloy provides wear and corrosion resistance, which extends the service life of components in demanding environments. It is utilised in precise manufacturing in scientific contexts because of its electrical conductivity and improved machinability, attributable to its fine grain structure. Furthermore, the nanoparticle surfaces can be functionalised for specific purposes such as catalysis and specialised coatings. These properties enable application in the aerospace, automotive, electronics and advanced manufacturing sectors.

Nano-Aluminium-Silizium Alloy Powder Specification

Nano-Aluminium-Silizium Alloy Powder Applications

Lunching into aerospace: The powder’s high strength-to-weight ratio and increased thermal conductivity permit its use in structural components, heat exchangers and thermal protection systems in aircraft and spacecraft.

Automotive sector: The alloy is employed in engine and transmission components. Its wear resistance and thermal management capabilities contribute to improved component performance.

Electronics and thermal management: Its thermal conductivity and electrical conductivity allow its use in heat sinks, thermal interface materials and conductive components in electronic devices, thereby supporting performance and operational life.

Advanced manufacturing: The fine grain structure and machinability simplify precise fabrication. The powder is applicable in 3D printing and other high-precision manufacturing techniques.

Coatings and surface treatments: The alloy may be applied to enhance wear resistance, corrosion resistance and thermal performance of surfaces, thereby extending component service life.

Energy storage and conversion: Investigations focus on its use in battery and supercapacitor applications. Its conductivity and structure may increase energy density, charge/discharge rates and overall efficiency.

Catalysis: Functionalisation of the nanoparticle surfaces permits the alloy’s use as a catalyst or catalyst support in chemical reactions, thereby increasing reaction rates and conversion efficiency.

Biomedical devices: The biocompatibility and corrosion resistance render the alloy suitable for biomedical implants and instruments, providing measured structural durability.

Nano-Aluminium-Silizium Alloy Powder Packaging

Our Nano-Aluminium-Silizium Alloy Powder is managed carefully during storage and transport in order to maintain its original state.