The WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe WXS coating on these end mills protects them from wear and provides maximum heat resistance when milling nickel-based alloys and hardened steels with a Rockwell hardness of more than 50 HRC. It is harder and has a higher oxidation temperature than a TiAlN coating.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to CartThe diamond coating on these end mills protects them from wear when milling abrasive materials. Diamond-coated end mills are only used for milling nonferrous materials such as aluminum, graphite, copper, and carbon fiber.
+ Add to Cart