Medical Industry
Elevate Your Healthcare Standards with Our ISO13485 Certified Medical Products
From surgical instruments and device enclosures, the precision cutting, shaping, and forming capabilities of metal stamping are crucial for creating parts that meet the stringent standards of medical applications. Sheet metal components form the core of surgical instruments and medical equipment, ensuring precision and reliability in critical tasks.
As medical technologies evolve, the demand for components with precise tolerances and reliable performance grows. Ming Chiang Precision's metal stamping services are designed to meet these evolving needs, providing the medical industry with components that enhance the functionality and reliability of life-saving medical devices. Our services emphasize the company's role in supporting the development of high-quality medical devices. With our commitment to professional production and stable quality, we offer comprehensive metal stamping solutions such as spring contacts, connectors and other metal components which cater to the intricate needs of surgical devices, disposable skin staplers, continuous glucose monitoring (CGM) systems, CPAP machines, remote monitoring and communication systems, neural monitoring and other medical devices in general . From raw material selection to tooling development and quality inspection, we ensure that each component meets the rigorous standards of the medical field. The company's expertise in handling a variety of materials, including aluminum, copper, stainless steel, and tinplate, allows for the creation of customized metal stampings that are essential for medical instruments, and equipment housings. With certifications such as ISO 13485 and PPAP level III service, we demonstrate our capability to deliver products that adhere to the highest levels of quality and safety required in the medical industry.
Our capability includes surface treatments for medical components to improve the corrosion resistance, and electrical conductivity of components such as surgical instruments, and connectors. In the electroplating process, although the electroplated layer is only microns thick, is crucial for patient safety and the successful functioning and overall performance of the device. It can provide a barrier against corrosion, reduce friction, increase electrical conductivity and reduce resistivity.