Brazing Furnace,vacuum Brazing Furnace,Industrial Vacuum Furnace,Aluminum Vacuum Brazing Furnace,Horizontal Vacuum Brazing Furnace
Technical Specifications:
Type: Horizontal, Side-loading
Maximum Temperature: 1600℃
Rated Operating Range: 900℃ – 1600℃
Heating Element: Molybdenum-Lanthanum (Mo-La) Alloy
Hot Zone Dimensions: 300 × 100 × 100 mm (D×W×H)
Ultimate Vacuum: 6.0 × 10⁻⁴ Pa (Cold state, empty & cleaned furnace)
Operating Vacuum: 6.0 × 10⁻³ Pa (Hot state, empty furnace)
Heating Power: 55 kW ± 10%
Heating Rate: ≤ 20℃/min
Control Precision: ± 1℃
Thermocouple: Type B (Applicable range: Room Temperature to 1600℃)
Vacuum Brazing Furnace
-
Versatile Material Compatibility: This system is engineered for the precision vacuum brazing and high-vacuum annealing of various metals and alloys, including Cu, Ni, Be, Cr, and Ti. It is ideal for processing stainless steel, superalloys, elastic alloys, titanium alloys, and cemented carbides, as well as the tempering of high-speed steel, tool steel, and cold/hot work die steel.
-
Superior Process Advantages: By processing parts in a vacuum or controlled protective atmosphere, the system ensures an oxidation-free environment. This results in a bright, high-quality surface finish with zero pollution, meeting the most stringent industrial standards.
-
Advanced Thermal Insulation: The heating chamber features an all-metal radiation shield (insulation screen). This design not only enhances thermal efficiency but also effectively prevents the volatilization of alloying elements at high temperatures, preserving the integrity and performance of the base materials.
Headline: Precision Joining Excellence: High-Vacuum Brazing Solutions for Advanced Materials
In the world of high-performance manufacturing, the integrity of a joint determines the success of the entire system. Whether you are working with Titanium alloys, Superalloys, or Cemented Carbides, achieving an oxidation-free, high-strength bond is critical. Our latest Horizontal Vacuum Brazing Furnace is engineered to meet these exacting standards.
Why Choose Our Vacuum Brazing Technology?
Unlike traditional welding, our vacuum brazing process occurs in a meticulously controlled environment, reaching an ultimate vacuum of 6.0×10⁻⁴ Pa. This ensures a fluxless, bright surface finish, eliminating the need for post-process cleaning and preserving the parent material's properties.
Technical Superiority in Every Cycle
Designed for precision, our furnace features a Molybdenum-Lanthanum (Mo-La) alloy heating system. Compared to standard molybdenum, Mo-La offers superior creep resistance and a longer service life at temperatures up to 1600°C. The all-metal radiation shield hot zone ensures maximum thermal efficiency and prevents the volatilization of volatile alloying elements, making it ideal for aerospace and medical applications.
Key Specifications:
-
High Precision: Temperature uniformity of ±5°C and control accuracy of ±1°C.
-
Optimized Performance: 55KW heating power with a programmable PID control system.
-
Versatile Applications: From vacuum annealing of tool steels to complex brazing of heat exchangers.
Driving Industrial Innovation
From Aerospace heat exchangers to Automotive power electronics and Semiconductor components, our vacuum technology provides the reliability your mission-critical parts deserve.
Elevate your thermal processing capabilities today. Contact us for a customized Thermal Processing Solution tailored to your material requirements.
#VacuumBrazing #HeatTreatment #AerospaceManufacturing #Metallurgy #AdvancedMaterials #IndustrialFurnace #VacuumTechnology
