Ads
related to: high temperature brazing alloys
Search results
Results From The WOW.Com Content Network
High-temperature. Brazing temperature 1400 °C. Can be used for brazing molybdenum. 91.5: 8.5: Ti 70 V 30 [5] – High-temperature. Brazing temperature 1650 °C. Can be used for brazing molybdenum. 70: V 30: V 65 Nb 35 [5] – High-temperature. Brazing temperature 1870 °C. Can be used for brazing molybdenum. V 65 Nb 35: Nb 97.8 B 2.2 [5 ...
Good high-temperature strength. Very expensive, though less than gold. Makes the joint less prone to fail due to intergranular penetration when brazing alloys of nickel, molybdenum, or tungsten. [19] Increases high-temperature strength of gold-based alloys. [17] Improves high-temperature strength and corrosion resistance of gold-copper alloys.
Hard solders are used for brazing, and melt at higher temperatures. Alloys of copper with either zinc or silver are the most common. In silversmithing or jewelry making, special hard solders are used that will pass assay. They contain a high proportion of the metal being soldered and lead is not used in these alloys.
It is used in applications where alloys melting higher than soft solders are required, but the cost and strength of silver-brazing alloys is not necessary. [31] Cd 78 Zn 17 Ag 5: 249: 316 [32] Cd: No: KappTecZ High temperature, high strength solder that may be used on most metals, but works extremely well on aluminium, copper and stainless ...
Induction brazing is a very repeatable process because variables such as time, temperature, alloy, fixturing, and part positioning are very controllable. The internal power supply of the RF power supply can be used to control cycle time, and temperature control can be accomplished with pyrometers, visual temperature sensors or thermocouples.
Glidcop has also been used in hybrid circuit packages due to its compatibility with high temperature brazing, [3] and in particle accelerator components, such as radio frequency quadrupoles and compact X-ray absorbers for undulator beam lines, where the alloy may be subjected to high temperatures and high radiation simultaneously.