Electrostatic Chuck Services
  E-Chuck Refurbishing & Part Re-anodization
  Chamber Components
   
  General Services
  Processing
  Surface Treatment
  Bonding
  Testing
  Other Services
   
  TKF Consulting & Engineering Services

 

Materials: Cutting, grinding, lap-polish, ultrasonic welding and blasting

Brittle: Ceramics, silicon, quartz, glass, carbon, etc.

Metal: Stainless steel, Aluminum alloys, Titanium alloys, high melting point metal such as Tungsten, Molybdenum, Tantalum, etc.

 

 




 

Anodization - by using a novel anodize oxidation coating generating method developed by a special electrolyte and the electrolysis method, an oxide film much harder than the usual anodize oxidation coatings is obtained. In addition, we also respond to consultation for various hard anodizing.

Thermal spraying - The coating material is melted or softened by heating and then turned into fine particles and made to impact into the object to be coated. By solidifying and depositing flatly crushed particles, thermal spraying is a kind of technology to form coating. We can respond to various types of thermal spraying, such as air plasma spraying, decompression plasma spraying, and high-speed flame spraying.

Plating - Highly efficient plating based on the non-electrolyzed plating method, giving outstanding adhesion strength and electrical conductivity, which cannot be realized by conventional methods, such as sputtering, vapor deposition and printing calcinations method.

Al, ceramics, Al/SiC, non-electrolysis plating method for resin material

Ion plating Reaction gas (nitrogen, acetylene, etc.) is blown into the place, where the plating substance has been heated, evaporated and ionized. Under this circumstance, a hard metallic compound particle is produced by metal ion and reaction gas. It is a method of producing a hard coating by making the particle impact very strongly on the frame surface to which a negative (-) voltage has been applied. We respond to consultation regarding various types of coatings.

 



 

Vacuum brazing

Brazing is the technology of bonding base materials without melting the joint part (unlike commonly known welding by melting the joint part). Please consult our company for bonding between different types of materials.

Precision bonding: using organic and inorganic system bonding

Electron-beam bonding: The electron emitted from the filament heated in vacuum is accelerated by high voltage of several 10kV to near the velocity of light, and furthermore it is sharply concentrated using an electron lens. The intense heat produced from the electrons colliding into a minute surface is used in welding. This is called electron-beam bonding.

Our company also performs bonding of various types of metal materials

TIG welding TIG welding is a welding method of using a heat-resistant tungsten electrode (T), and passing inactive gas (inert gas, I) around it. Since there is no oxygen (air) in a welding part and the material is not oxidized, it is the greatest feature in the welding of stainless steel or an aluminum alloy. In addition, it is also called argon welding since argon is used in many cases for inactive gas. Please consult our company for welding between different types of materials.




 

Vacuum: Vacuum leak, ultimate vacuum, gas discharge characteristics

Thermal: Surface temperature distribution measurement by IR thermograph (inside a vacuum chamber), Temperature distribution measurement of the heater using various temperature-measuring tools, and a wafer stage.

Dimension: Various types of measuring instruments, such as 2D measuring instrument, 3D measuring instrument, surface roughness tester and coating thickness meter

Surface analysis: SEM, EPMA, X-ray Fluorescence Spectrometer,

Sequential Plasma Spectrometer

 




 

Aluminum high-pressure casting:

By performing oxygen substitution and casting the gas in a die, products with few cast cavities (blowholes) resulting from the contamination of gas can be manufactured. Since there is little contamination of gas, heat treating and welding are possible, and it is suitable for components subjected to high pressure and quality die-casting products with few blowholes of a sliding surface. Components are also available upon consultation.

Ultrasonic fine hole processing machine:

It is the processing method, which pressurizes the tool that performs supersonic vibration perpendicularly through the processing liquid, which mixes the abrasive, and crushes a work piece minutely with the impact of grinding particles

 


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