Stay-Brite® and Stay-Brite® 8
Stay-Brite® silver-bearing solders can often be used to replace brazing alloys in the refrigeration and air-conditioning industries. Both Stay-Brite® and Stay-Brite® 8 produce a component with greater overall strength. Stay-Brite® solders bond with all ferrous and non-ferrous alloys. Joints soldered with Stay-Brite® solders exhibit considerably higher elongation for sound, dissimilar metal joints and vibration applications. Stay-Brite® 8 is especially effective in filling loosely fitted joints.
Bridgit® lead free solder is widely used in plumbing applications where lead-bearing solders are prohibited. It containts nickel, making joints tremendously strong. A wide plastic range makes Bridgit® an excellent alloy for large diameter fittings and ill-fitted or non-concentric pipes. It fills gaps and caps off easily and effectively.
95/5 is a tin/antimony solder well-suited for applicators where there is moderately-elevated temperature. With higher electrical conductivity and high fluidity, 95/5 is recommended for lead-free installations of small diameter, tight-fitting connections. 95/5 is not recommended for HVAC connections.
Cadium free, tin/zinc alloy forms excellent corrosion-resistant soldered joints. It joins all solderable aluminium alloys to each other and to dissimilar metals, both ferrous and non-ferrous. It is also beneficial as a high temperature solder on most metals.
Al-Braze 1070 is a superior brazing alloy for joining aluminium to aluminium. Al-Braze 1070 is not recommended for brazing aluminium directly to non-aluminium alloys as the joint may be brittle. Al-Braze 1070 is free flowing with excellent capillary attraction, ductility, penetration and corrosion resistance.
Alcor™ is a non-corrosive flux core solder. It is simple to use and yields good capillary action and excellent fluidity. Using Alcor™ is fast and convenient, due to the low melting point and elimination of fluxing and post-braze cleaning.
*The above are abstracts from The Harris Products Group product catalogue. For further information, please contact us.