High-temperature soldering using a bronze filler rod which has a higher (840 degrees F) melting point than normal soldering and makes touch, durable joints
Brazing is the joining of metal parts by melting a different metal (of lower melting point) which bonds the parts together Typically brazing involves joining steel parts with molten brass Soldering is a similar operation, using lower temperatures and different filler metals (with a lower melting point) In brazing and soldering, the filler metal penetrates inaccessible areas of the joint by capillary action See also welding, fillet brazing
Brazing and soldering are techniques for joining metals in the solid state by means of a fusible filler metal with a melting point well below that of the base metal
A group of welding processes in which a groove, fillet, lap, or flange joint is bonded by using a nonferrous filler metal having a melting point above 800 °F (427 °C), but below that of the base metals Filler metal is distributed in the joint by capillary attraction
Brazing is a method of joining metal parts together by fusing a layer of brass between the adjoining surfaces A red heat is necessary and a flux is used to protect the metal from oxidation
Process for joining two pieces of metal by applying heat and adding a filler metal. The filler, which has a lower melting point than the metals to be joined, is either pre-placed or fed into the joint as the parts are heated. In brazing parts with small clearances, the filler is able to flow into the joint by capillarity. The temperature of the molten filler in brazing exceeds 800°F (430°C). In soldering, a related process, the filler metal remains below that temperature. Brazed joints are usually stronger than soldered joints. Most metals can be brazed, and the range of available brazing alloys has increased as new alloys and new service requirements are introduced. Brazed joints are highly reliable and are used extensively on rockets, jet engines, and aircraft parts. See also welding
a method of joining metal parts together by fusing a layer of brass between the adjoining surfaces A red heat (700-800°C) is necessary and a flux used to protect the metal from oxidation
a process of joining metals using a non-ferrous filler metal having a melting point that is lower than the "parent metals" to be joined, typically over +800ºF
braze
Pronunciation
Etymology
[ 'brAz ] (transitive verb.) 1602. From Old French braser (“to burn”).