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Jector Punches With Locating Dowel Holes

Finished For Retainers WPC Treatment HW Coating

Jector Punches with Locating Dowel Holes, finished for retainers with WPC Treatment and HW Coating, deliver exceptional precision and durability for maintain position press in die applications. The WPC Treatment enhances surface strength and fatigue resistance, while the HW Coating provides superior hardness and wear resistance, ensuring extended tool life. Designed for high accuracy, the locating dowel holes improve alignment and reduce setup time. Ideal for demanding industrial environments, these punches offer reliable performance, increased productivity, and long-term cost savings in precision metalworking operations.

Jector Punches with Locating Dowel Holes, finished for retainers with WPC Treatment and HW Coating, are engineered to enhance precision and durability in maintain position press in die applications. These punches are specifically designed to meet the demands of high-performance metalworking, offering reliable operation in challenging industrial environments.

The WPC (Wide Peening Ceramic) Treatment strengthens the surface by improving its fatigue resistance, reducing the risk of cracking and wear under repeated stress. Combined with HW (Hard Wear) Coating, these punches achieve exceptional hardness and wear resistance, ensuring extended tool life and reducing maintenance downtime.

The inclusion of locating dowel holes ensures precise alignment and consistent positioning, optimizing operational efficiency and reducing setup time. This feature is particularly beneficial in complex die setups where accuracy is critical to achieving high-quality outputs.

Ideal for heavy-duty operations, these punches deliver long-lasting performance and cost efficiency. Their advanced surface treatments and coatings minimize tool wear and increase overall productivity. Whether for automotive, aerospace, or general industrial applications, Jector Punches with WPC Treatment and HW Coating provide an unbeatable combination of strength, precision, and reliability for maintaining position in press-in-die applications.