Strong High-Temperature Performance: The brazed joint can withstand temperatures exceeding 1000°C, with excellent oxidation resistance and thermal fatigue resistance.
Good Fluidity: Low melting point (liquidus temperature approx. 1050°C), strong wettability, and dense brazed seams.
Diverse Forms: Provides fine powder (10-50μm) suitable for automatic powder feeding/pre-placed processes, and easy-to-apply paste.
Wide Adaptability: Suitable for bonding stainless steel, high-temperature alloys, cemented carbides, and dissimilar metals.
Application Fields:
Aviation: Repair brazing of engine combustion chambers and turbine blades.
Nuclear Energy: Hermetic welding of heat exchangers and high-temperature valve seals.
Electronics: Sealing of vacuum devices and semiconductor packaging.
Industry: Brazing of cemented carbides for cutting tools and wear-resistant components.
Note: Brazing of stainless steel materials must be performed in a vacuum or protective atmosphere. The high chromium content in the brazing material imparts excellent corrosion resistance to the brazed joint. This brazing material exhibits stable welding performance in a gap range of 0.05 mm to 0.25 mm, making it easier to achieve high-quality brazed joints. To meet different welding requirements and application scenarios, the brazing material can be applied to the joint using various methods, such as dispensing, roll coating, printing, or spraying.
