When it comes to thin material processing and difficult-to-cut materials, think of "Kouwa Tech."
【Five Strengths】 ■ Skilled in sizes from palm-sized to 2000 ■ Proficient in aluminum high-speed machining and difficult-to-cut heavy machining ■ Specializes in complex shapes and precision parts ■ Expert in thin-walled shapes that are prone to distortion ■ Capable of consistent support for prototype machining up to 1000 pieces with automated equipment and a 24-hour system *We have processing examples available. For more details, please contact us or download the PDF to view.
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basic information
In the medical field, because the components enter the body, "safety and security" are the top priorities. - Processing of cervical spine implants, prosthetic parts, and components for walking aids. - Collaborating with doctors and experts from university hospitals to support technical challenges in the medical field from the prototype development stage.
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We can flexibly accommodate everything from prototype development to repeat mass production, regardless of the industry, so please feel free to consult with us.
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Company information
Sixty years since its founding. We have extensive achievements in the aerospace, medical, and semiconductor fields. We have achieved a thickness of 0.1mm in the processing of "thin materials," which are prone to distortion, through our unique jig and cutting tool design. We also handle the processing of "difficult-to-cut materials" such as Inconel and titanium, with experienced craftsmen and certified inspectors ensuring the quality of our products. ● Achievements in "thin material" processing through weight reduction cultivated in the aerospace field - Processing of various parts such as aircraft body components, satellite components, and defense components - Specializing in difficult processing that requires technology through our unique jig and cutting tool design ● In the semiconductor field, there are strict requirements where "even a hairline scratch is unacceptable" - High-precision parts processing such as components for wafer transport - Flexibly responding to special processing such as "Hale processing" and "electrolytic polishing" ● In the medical field, parts that enter the body prioritize "safety and security" - Processing of components for implants and prosthetic limbs - Collaborating with doctors and experts to support technical challenges in the medical field from the prototype development stage ● Prototype development in next-generation fields - Exploring whether the know-how and achievements cultivated in the aerospace field can be applied to new areas. We are actively challenging prototype development for flying cars, hydrogen engines, EVs, and more.