Brazing alloys are metals melted at temperatures higher than 840 degrees F. They are used to fill fine joints between two other surfaces that are then fused together. The brazing process occurs at temperatures much higher than soldering and is characterized by braze alloy melting between two solid surfaces that do not themselves melt, but remain solid throughout the braising, or joining, process.
Brazing is typically accomplished by a variety of metal brazing alloy materials such as silver for silver brazing, copper for welding and nickel for cast iron welding. Brazing, however, is not welding. The brazing process uses a temperature much cooler than welding thereby preventing a distortion of either of the solids joined by the melted alloy sandwiched in the middle.
1. Buy silver brazing alloys and silver combination brazing alloy in a variety of forms for the most convenient use.
2. Find quality copper brazing alloy for heavy duty brazing applications.
3. Consider aluminum brazing alloy for corrosion resistance and reduced silicon penetration applications.
Buy silver braze alloy in a variety of convenient formsUses for silver brazing alloy are diverse. To successfully fill your clients' needs for silver brazing alloy, buy from manufacturers who produce silver and silver combination alloys in different forms for ease of use in every situation.
Find quality copper brazing alloy for your clients' heavier duty brazing needsBronze and copper brazing alloy remain the standard brazing alloy for braze welding, which minimizes overheating and heat distortion, requiring minimal preheating while allowing the joining of dissimilar metals.
Consider aluminum brazing alloy for corrosion resistance and reduced silicon penetrationAluminum brazing alloy provides superior corrosion resistance and reduced silicon penetration for those who require it for industrial applications.
- Titanium, as with a few other metals, cannot be brazed like other brazing alloys unless specially prepared. Resistance to brazing occurs because titanium is insoluble with other metals and forms an oxide layer too quickly when subjected to high heat. To braze titanium, first deoxidize the surface and then protect it with plating.