Titanium Brazing, Inc.
Our company manufactures Ti-based, Zr-based powdered, and Al-Mg-based foils and wire brazing filler metals for joining titanium alloys, titanium to aluminum, copper, or steel, titanium aluminides, refractory metals, graphite and carbon-carbon composites in various applications including heat exchangers, honeycomb structures, compressor vanes, tubing, electronics, X-ray medical devices, etc.
TiBraze® brazing foils, powders and wires provide extensive manufacturing advantages due to low brazing temperature, as well as performance advantages due to high-temperature strength of brazed structures. See characteristics of Products.
OUR PRICES ARE DEFINITELY THE LOWEST ON
We also provide consulting in both manufacturing and research aimed at supporting of existing production of customers, as well as new developments. See detailed description in Services.
November 09, 2012
Please check out new articles we have just published here .
December 01, 2009
New Product: Powdered Foils For Brazing Titanium And Ceramics
Our company is supplying powdered foils 0.012 in. (0.3 mm) to 0.030 in. (0.8 mm) thick, width up to 6 in. of the following titanium brazing filler metals:
October 18, 2006
Amorphous Tapes For Brazing Titanium And Ceramics
Our company works on the manufacture and supply amorphous tapes 40-60 µm thick, width 0.8 in. (~20 mm) of the following titanium brazing filler metals:
September 25, 2006
We continued to study brazing ceramics using our heat-resistant brazing filler metal TiBraze1200 (Ni-27Ti-10Al). A composite filler metal containing 70 wt.% of TiBraze1200 and 30 wt.% of Ti-30Ni eutectic alloy powder was tested for brazing alumina ceramic in dry argon at 2084-2100oF (1140-1150oC) to improve spreading of the liquid filler metal inside of the brazing gap. Both wetting of ceramic and spreading along the large surface were improved due to early melting of the Ti-Ni eutectic.
July 5, 2005
Development of the low-temperature filler metal TiBrazeAl-665A designed for brazing thin-wall titanium articles and titanium matrix composites is completed. The filler metal has a composition (in wt.%): Al-2.5Mg-(0.2-0.3)Cr. It is supplied in the form of foil 0.001 in. (25 microns) to 0.062 in. (1.6 mm) thick.
May 16, 2005
Our heat-resistant brazing filler metal TiBraze1200 (Ni-27Ti-10Al) was tested for joining alumina ceramic. Brazing was carried out both in vacuum and dry argon at 2100oF (1150oC). The filler metal exhibited good wetting and brazing ability when it was applied at the entrance of brazing gap. If the filler metal is applied into the gap, the joined ceramic parts should be slightly compressed.
March 8, 2005