These taps are designed for tapping steel. They have a black-oxide finish that retains lubricants to improve the taps' wear resistance and chip flow.
+ Add to CartThese taps are designed for tapping steel. They have a black-oxide finish that retains lubricants to improve the taps' wear resistance and chip flow.
+ Add to CartThese taps are designed for tapping steel. They have a TiCN coating that protects them from wear and is harder and more wear-resistant than a TiN coating.
+ Add to CartThese taps are designed for tapping steel. They have a TiN coating that protects them from wear and allows them to be used at higher speeds than taps with a bright finish.
+ Add to CartThese taps are designed for tapping steel. They have a TiN coating that protects them from wear and allows them to be used at higher speeds than taps with a bright finish.
+ Add to CartThese taps are designed for tapping stainless steel. They have a hardlube coating that protects them from wear. Sometimes called hardslick, hardlube has an inner layer of titanium aluminum nitride (TiAlN) and an outer layer of tungsten carbide/carbon (WC/C). The TiAlN layer withstands high temperatures and protects the taps from wear. The WC/C layer has a low coefficient of friction and helps prevent chips from sticking to the tool in dry-machining applications.
+ Add to CartThese taps are designed for tapping steel and stainless steel. They have a TiN coating that protects them from wear and allows them to be used at higher speeds than taps with a bright finish.
+ Add to CartThese taps have a unified thread standard and are designed for tapping steel. UN coarse (UNC) taps have fewer threads per inch than UN fine (UNF) taps. Compared to UNF taps, UNC taps perform better in threading applications on brittle materials and are less likely to cross thread. Coarse threads can also withstand more physical abuse than fine threads. UNF taps have more threads per inch than UNC taps. Compared to UNC taps, UNF taps perform better in threading applications on thin-walled workpieces and hard materials. Fine threads provide more tensile strength and shear strength than coarse threads. The bright finish on these taps provides a smooth, polished surface.
+ Add to CartThese taps are designed for tapping steel. They have a black-oxide finish that retains lubricants to improve the taps' wear resistance and chip flow.
+ Add to CartThese taps are designed for tapping stainless steel. They have a black-oxide finish that retains lubricants to improve the taps' wear resistance and chip flow.
+ Add to CartThese taps are designed for tapping steel. They have a TiN coating that protects them from wear and allows them to be used at higher speeds than taps with a bright finish.
+ Add to CartThese taps are designed for tapping steel. They come in standard sizes expressed in millimeters. The bright finish on these taps provides a smooth, polished surface.
+ Add to CartThese taps are designed for tapping steel and stainless steel. They have a black-oxide finish that retains lubricants to improve the taps' wear resistance and chip flow.
+ Add to CartThese taps are designed for tapping steel. They have a TiCN coating that protects them from wear and is harder and more wear-resistant than a TiN coating.
+ Add to CartThese taps are designed for tapping steel and stainless steel. They have a TiN coating that protects them from wear and allows them to be used at higher speeds than taps with a bright finish.
+ Add to CartThese taps are designed for tapping steel and stainless steel. They have a bright finish that provides a smooth, polished surface.
+ Add to CartThese taps have a unified thread standard and are designed for tapping steel. UN coarse (UNC) taps have fewer threads per inch than UN fine (UNF) taps. Compared to UNF taps, UNC taps perform better in threading applications on brittle materials and are less likely to cross thread. Coarse threads can also withstand more physical abuse than fine threads. UNF taps have more threads per inch than UNC taps. Compared to UNC taps, UNF taps perform better in threading applications on thin-walled workpieces and hard materials. Fine threads provide more tensile strength and shear strength than coarse threads. The bright finish on these taps provides a smooth, polished surface.
+ Add to Cart