Solve wear, chipping, and corrosion during processing of electrical steel sheets! Everloy carbide alloy.
Mold parts that are resistant to wear and chipping due to adhesion of electrical steel plates, chipping from the impact of pressing, and corrosion from water-cutting wire processing!
Electromagnetic steel sheets are essential for motor cores, but we often hear about issues such as corrosion during processing and chipping or wear during pressing. **Problems during Electromagnetic Steel Sheet Processing** - Chipping due to impact during press processing - Wear and chipping caused by adhesion of the main component, iron - Corrosion from prolonged water-cut wire processing - Damage from discharge machining Everloy's "Super Hard Alloy EW Type and EX Type" are mold parts materials that can solve these problems during electromagnetic steel sheet processing. - **EW Type (for punching)** Compared to materials of the same hardness, it has a relatively high fracture toughness value, which allows for the prevention or improvement of cracks, chipping, and chipping without reducing hardness. It also has excellent corrosion resistance. - **EX Type (for riveting)** This material type is suitable for suppressing adhesion wear that occurs during the riveting process of electromagnetic steel sheets. For details on various physical properties, applications/case studies, and wear comparison examples, please download the PDF or contact us. ★ When inquiring, if you could provide information about your current issues or areas you would like to improve, our specialized staff will propose solutions. Please feel free to consult us about anything.
Inquire About This Product
basic information
Please download the PDF for details.
Price information
Please contact us.
Delivery Time
※Please contact us.
Applications/Examples of results
catalog(5)
Download All Catalogs
Company information
Everloy possesses a variety of carbide materials suitable for various applications, and provides solutions for challenges such as material supply, precision machining of precision mold parts, and wear, impact, damage, and corrosion. Additionally, regarding spray nozzles, we offer a comprehensive solution for analysis, design, development, and manufacturing through our extensive lineup and performance evaluation technology, while also applying carbide materials to spray nozzles to propose the development of products with excellent wear resistance and improvements in product performance through fluid analysis.
