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Technologies

 

TECHNOLOGY LIBRARY

A
  • ACF Laminating/Pre-Bonding
  • B
  • Bolt & Studwelding
  •  
  • Brazing
  • C
  • Compacting
  • D
  • Dispensing
  •  
  • Drawn Arc Welding
  • E
  • Electrostatic Discharge Control
  • F
  • Fiber Laser Marking
  •  
  • Fiber Laser Welding
  •  
  • Fluid Dispensing
  •  
  • Fume Extraction
  • G
  • Gap Welding
  •  
  • Green Laser Welding
  • H
  • Heat Staking
  •  
  • Heat-Sealing/ACF Final Bonding
  •  
  • Hermetic Sealing of electronic packages
  •  
  • Hot Bar Bonding
  •  
  • Hot Bar Reflow Soldering
  •  
  • Hot Bar Systems
  •  
  • Hot Crimping
  • I
  • Induction Heating
  •  
  • Inscribe
  •  
  • Insulated Wire Welding
  • J
  • Jet Dispensing
  • L
  • Laser Cutting
  •  
  • Laser Marking
  •  
  • Laser Marking Systems
  •  
  • Laser Seam Welding
  •  
  • Laser Spot Welding
  •  
  • Laser Welding
  •  
  • Laser Welding Systems
  • M
  • Marking
  •  
  • Micro Joining
  •  
  • Micro Resistance Welding
  • P
  • Parallel Gap Welding
  •  
  • Plastic Welding
  •  
  • Projection Welding
  • R
  • Remote Services
  •  
  • Resistance Welding
  •  
  • Resistance Welding Systems
  •  
  • Robotic Soldering
  • S
  • Saw Blade System
  •  
  • Seam Welding
  •  
  • Short Cycle Studwelding
  •  
  • Single Component Positive Displacement Dispensing
  •  
  • Single Component Time/Pressure Dispensing
  •  
  • Spot Welding
  •  
  • Strand Welding
  •  
  • Studwelding
  •  
  • Studwelding with Capacitor Discharge
  • T
  • Thermocompression Welding
  •  
  • Two Component Dispensing
  • W
  • Weld Monitoring
  •  
  • Welding
  • Laser Cutting

    Fine Laser CuttingManufacturers are continually looking for more reliable, faster and more cost effective manufacturing solutions to stay competitive in the global marketplace. One area where this need is especially prevalent is fine cutting or precision cutting of thin metals for medical, electronics and industrial applications.


    There are several methods available for precision cutting of thin metals less than 1,5 mm thick used for these applications, which include materials such as stainless steel, titanium, nickel, and aluminum. The major options, lasers, electric discharge machining (EDM), water-jet, and chemical machining each have a role to play. However, as lasers with high power levels, improved maintenance costs and more functionality become available every day, precision fiber laser cutting technology is now emerging as the preferred choice for many thin metal cutting applications, particularly when superior edge quality, tight dimensional tolerances and/or high volume production is required.


    In addition, more capable fiber lasers maximise precision, throughput, cut flexibility when integrated into turnkey systems. These systems feature multi-axis motion ability and can perform wet cutting and dry cutting . This fiber laser technology offers both a cost effective high accuracy cutting solution while at the same time provides component designers more freedom to create challenging geometries unconstrained by current cutting technology limitations.

    Contact AMADA MIYACHI EUROPE to find out how to implement a laser cutting system into your production process.  

      

     

    Laser Cutting Benefits

    • Non-contact process

    • High precision with single pass

    • Minimal thermal input or HAZ

    • Superior "as cut" edge quality
    • High level of process control

    • Sub 20 micron diameter beam width

     

    Laser Cutting Applications 
    Our proven technologies enable the Automotive, Electronics & Solar Cells, IT & Multimedia, Medical, Aerospace and Defence industries to do fine laser cutting for a variety of applications.

    Automotive Medical IT & Multimedia

     

     
     
     

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