Palladium Silver Alloy Powder
Palladium Silver Alloy Powder
| Palladium Silver Alloy Powder | |
| Product No | NRE-9031 |
| CAS No. | 60495-83-2 |
| Formula | Pd-Ag |
| Molecular Weight | 214.2882 g/mol |
| APS | <40 um (Can be Customized) |
| Purity | 99.9% |
| Density | 10.9 g/cm3 |
| Color | Gray |
| Melting Point | 1155-1220 °C |
| Boiling Point | 1489°C |
Palladium Silver Alloy Powder
Introduction
Palladium-silver alloy powder is a type of metal alloy powder that combines palladium (Pd) and silver (Ag) in varying proportions. Palladium is a precious metal known for its excellent corrosion resistance, high melting point, and good electrical conductivity, while silver contributes ductility, thermal conductivity, and superior conductivity. Together, these metals create an alloy that combines the beneficial properties of both elements, making it highly suitable for a wide range of industrial, technological, and jewelry applications.
The palladium-silver alloy is typically produced through methods like powder metallurgy, gas atomization, or mechanical alloying, resulting in fine, spherical powder particles. This fine powder form allows for precise control over the alloy’s properties, making it ideal for additive manufacturing (3D printing), brazing, soldering, and other high-performance applications.
Properties
Corrosion Resistance:
Palladium-silver alloys exhibit excellent corrosion resistance due to the palladium content, particularly in oxidizing environments. This makes the alloy highly suitable for applications that need to withstand exposure to harsh chemicals, moisture, or other corrosive substances.
High Thermal and Electrical Conductivity:
Silver is an excellent conductor of both heat and electricity, and when combined with palladium, the alloy retains high thermal conductivity and electrical conductivity. This property is especially useful in electrical and electronic components where efficient heat dissipation and low resistance are crucial.
Ductility and Malleability:
Silver contributes significant ductility and malleability to the alloy, which enables it to be easily shaped, rolled, or drawn into thin wires or other complex forms without fracturing. This is beneficial for applications requiring detailed or intricate shapes.
High Melting Point:
Palladium contributes to the alloy’s high melting point, making it suitable for applications that involve high temperatures. This is particularly important in industries where parts may be exposed to elevated thermal environments.
