SOWA TOOL & MACHINE CO. LTD Products

All products from this brand (10032 total)

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed primarily for drilling in nonferrous materials such as Aluminum, Zinc die cast, and some plastics. They are successfully used in mild steel deep holes where chip packing occurs with standard helix drills. Bright finish 118 Degree points High Speed Steel

These drills are designed with oil holes the length of the land section of the drill to deliver a high pressure oil flow to the cutting edges. The resulting coolant flow flushes chips out of the hole to reduce heat and chip packing problems common to deep hole drilling applications. Surface speeds may be increased 30% or more over standard drill styles. 118 Degree notched point

These drills are designed with oil holes the length of the land section of the drill to deliver a high pressure oil flow to the cutting edges. The resulting coolant flow flushes chips out of the hole to reduce heat and chip packing problems common to deep hole drilling applications. Surface speeds may be increased 30% or more over standard drill styles. 118 Degree notched point

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for perfect alignment of the follow-on tool. Standard length Right hand cut

These drills are used for starting and centering screw machine operations. Their short flute and overall length increase rigidity while minimizing runout.

These drills are used for starting and centering screw machine operations. Their short flute and overall length increase rigidity while minimizing runout.

These drills are used for starting and centering screw machine operations. Their short flute and overall length increase rigidity while minimizing runout.

These drills are used for starting and centering screw machine operations. Their short flute and overall length increase rigidity while minimizing runout.

These drills are used for starting and centering screw machine operations. Their short flute and overall length increase rigidity while minimizing runout.

These drills are used for starting and centering screw machine operations. Their short flute and overall length increase rigidity while minimizing runout.

These drills are used for starting and centering screw machine operations. Their short flute and overall length increase rigidity while minimizing runout.

These drills are used for starting and centering screw machine operations. Their short flute and overall length increase rigidity while minimizing runout.

These end mills are designed for milling Stainless Steel, Titanium, Inconel and other similar metals where high cutting forces are generated. The high helix angle increases length of cutting edge engaged in the cut, reducing cutting load variations and prolonging tool life. Excellent surface finish with high speed and feed capabilities are features of these tools.

These end mills are designed for milling Stainless Steel, Titanium, Inconel and other similar metals where high cutting forces are generated. The high helix angle increases length of cutting edge engaged in the cut, reducing cutting load variations and prolonging tool life. Excellent surface finish with high speed and feed capabilities are features of these tools.

These end mills are furnished as regular with right-hand cutting and right-hand helical flutes. All shanks are flatted for holder set screw. Designed for slotting, drilling, pocketing and general-purpose operation. 2 helical flutes Centre cutting Single end with weldon shank Keyway tolerance

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding and longer reach applications.

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding and longer reach applications.

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications

These end mills are manufactured with Premium Sub-Micron carbide and are designed to cut hardened materials. The unique geometry of the Typhoon end mill combined with its modified AlTiN coating make it an excellent choice for demanding applications