Introduction of case studies for problem-solving, such as improving the lifespan of mold parts: "Wear Prevention Measures."
We will respond to your desire to extend the lifespan of mold parts! Proposal for improving wear resistance of carbide parts.
Our company contributes to solving the problems faced by our customers, such as improving the lifespan of mold parts. We received an inquiry from a customer stating, "We are punching the work material with a carbide punch, but the wear at the tip is severe. We want to extend the lifespan of the punch to increase productivity." In response, we analyzed the worn punch. It was determined that iron was adhering to the tip of the punch, promoting wear, so we proposed a carbide material that is less prone to iron adhesion. After implementing the countermeasures, despite the new material having a higher number of strokes, the amount of adhered material on the processed item decreased, resulting in less wear. [Case Study] [Before Countermeasure Material] ■ Number of Strokes: 500,000 to 1,500,000 ■ Wear at Punch Tip: Approximately 0.8mm ↓ [After Countermeasure Material] ■ Number of Strokes: 1,800,000 ■ Wear at Punch Tip: Approximately 0.2mm *For more details, please refer to the PDF document or feel free to contact us.
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【Main Recruitment Fields】 ■ Automotive Parts: Electrical components, Powder molding die components ■ Battery-related: Die components for transfer presses, Powder molding die components ■ Motor-related: Die components for motor cores ■ Rolling-related: Rolling rolls, Side rolls *For more details, please refer to the PDF document or feel free to contact us.
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【Purpose】 ■Wear prevention *For more details, please refer to the PDF document or feel free to contact us.
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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.