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American Standard and British Imperial System Triangular Shank Drill Bits High-speed Steel M2 Small Shank Drill Bits
Our factory supplies triangular shank drill bits, covering American Standard and British Imperial System specifications, made of M2 high-speed steel with a small shank design. The M2 high-speed steel base material endows the drill bits with excellent hardness, wear resistance, and high-temperature stability, making them suitable for drilling operations on metals, alloys, and other materials. The triangular shank structure enables stable clamping with corresponding specification fixtures, reducing slippage and deflection during high-speed operation and improving processing safety. The small shank design, while ensuring shank strength, adapts to the clamping needs of small power tools, saving materials and enhancing operational flexibility. The products strictly comply with American Standard and British Imperial System dimensional standards, with stable performance, and are suitable for mechanical processing, equipment maintenance, and other scenarios requiring corresponding specifications. Our factory can achieve bulk supply relying on a standardized production system, meeting customers’ needs for precise specifications and reliable performance.
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High Speed Steel 4241 4341 M2 Left-hand Twist Drill Bits Reverse Straight Shank Twist Left-hand Stainless Steel Drill Bits
Our factory manufactures left-hand twist drills, made from 4241, 4341, and M2 grade high-speed steels, all featuring a straight shank design, suitable for drilling operations on stainless steel and other materials. 4241 and 4341 high-speed steels offer balanced hardness and toughness, while M2 steel enhances high-temperature wear resistance. All three base materials meet the cutting performance requirements in stainless steel processing. The left-hand helix structure enables reverse chip evacuation, adapting to special working conditions requiring reverse drilling (such as removing broken wires, reverse tool retraction, etc.). The straight shank design ensures stable clamping with drilling machines, electric drills, and other equipment, reducing deflection during operation. Our factory controls base material composition and cutting edge precision through standardized processes, ensuring stable product performance. These drills are suitable for reverse drilling scenarios involving stainless steel in mechanical maintenance and metal component processing, providing customers with tool options adapted to special procedures.
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Non-standard Custom Twist Drills Integral Tungsten Carbide Drills for Iron and Woodworking Suitable for Stainless Steel
Our factory supplies non-standard custom twist drills, made of integral tungsten carbide, suitable for iron and woodworking scenarios, and also capable of handling stainless steel drilling operations. The integral tungsten carbide base material endows the drills with high hardness and excellent wear resistance, enabling them to meet the cutting requirements of difficult-to-machine materials such as stainless steel. Meanwhile, they maintain stable precision in iron drilling and achieve efficient chip evacuation in woodworking. Relying on a flexible customization system, our factory can adjust non-standard parameters such as drill diameter, point angle, and helix angle according to customer requirements, so as to meet drilling needs under special working conditions. The product performance is adaptable to multi-material processing scenarios, providing reliable customized tool support for fields such as mechanical manufacturing, furniture production, and metal component processing.
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Manufacturers Wholesale 4341 Rolled High Speed Steel Double Center Drill Bits with Two Chip Flutes and No Coating
Our factory supplies 4341 rolled high-speed steel double center drill bits, crafted from high-quality 4341 high-speed steel via the rolling process. These bits feature a two-chip flute structure, an uncoated surface, and are available for wholesale in bulk. The rolling process ensures the drill bits boast precise dimensional accuracy and uniform structure. The 4341 high-speed steel base material grants them favorable hardness and toughness, making them suitable for center positioning drilling operations on metal materials. The two-chip flute design enables efficient chip evacuation, preventing chip accumulation from impairing machining precision. The uncoated characteristic renders them applicable to scenarios requiring surface cleanliness, as well as processing needs that demand subsequent custom coating treatments. Leveraging standardized production lines, our factory achieves stable mass production. The product performance meets the mass drilling positioning requirements in fields such as mechanical manufacturing and mold processing, providing customers with cost-effective tool solutions.
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HSS-E cobalt standard thin shank stainless steel machine with titanium coated spiral groove tap DIN 376_374
I am a tap compliant with DIN 376 and 374 standards, constructed with an HSS-E cobalt high-speed steel base, specifically designed for threading stainless steel. My standard thin shank is compatible with conventional machine tool fixtures, enabling stable installation on various general-purpose processing equipment. The spiral groove design optimizes chip evacuation paths, effectively preventing chip accumulation in blind-hole machining. The titanium coating on my surface enhances wear resistance and lubricity, reducing friction and adhesion during cutting and extending the stability of continuous machining. Leveraging material properties and structural design, I can ensure thread precision and surface quality in threading difficult-to-machine materials such as stainless steel, making me suitable for mass production and precision component processing scenarios.
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High quality HSS-E cobalt stainless steel machine titanium coated spiral groove tap meets Chinese standards
A high-quality tap compliant with Chinese standards, made from HSS-E cobalt-containing high-speed steel as the base material, and specifically designed for stainless steel threading. The titanium coating on my surface enhances wear resistance and lubricity, effectively reducing friction and adhesion during cutting and extending service life. My spiral groove structure optimizes chip evacuation paths, enabling adaptation to both blind hole and through hole machining scenarios, thus preventing chip accumulation from affecting machining accuracy. Leveraging material properties and structural design, I can stably ensure thread precision and surface quality in threading difficult-to-machine materials such as stainless steel, making me suitable for various industrial production scenarios with high requirements for thread connections.
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High speed steel spiral tap for factory direct sales machines used in mechanical manufacturing and processing
A factory-direct high-speed steel spiral-flute machine tap, specifically designed for mechanical manufacturing and processing scenarios. Made from high-speed steel as the base material, I possess excellent cutting performance and durability, capable of meeting the threading requirements of various metal materials. My spiral-flute structure optimizes chip evacuation paths, enabling effective handling of blind hole or through hole machining and preventing chip accumulation from affecting thread precision. Leveraging the factory-direct sales model, while ensuring stable performance, I also feature both cost controllability and timely supply. I am suitable for threading various components in the field of mechanical manufacturing, providing reliable thread forming support for the production process.
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HSSE M35 TIN RNT Thread Tap Extrusion Tap Forming Tap Used for Non Chip Machining Machine Tool Processing of Nonferrous Metals
This is an RNT-type extrusion forming tap made of HSSE M35 material, with a TiN coating on the surface. Leveraging the base material properties of HSSE M35 cobalt-containing high-speed steel, I possess excellent strength and wear resistance; the TiN coating further enhances surface lubricity, reducing friction and adhesion during machining. As an extrusion forming tap, I adopt the chip-free machining principle, achieving thread formation through plastic deformation of materials, and am particularly suitable for machine tool processing scenarios involving nonferrous metals. This machining method effectively improves the surface quality and structural strength of threads, providing stable and reliable forming support for thread connections in nonferrous metal components.
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ISO 529 Long-life cylindrical straight flute tap with four chip flutes square shank made of cobalt-containing high-speed steel
This is a cylindrical straight-flute tap compliant with the ISO 529 standard, made of cobalt-containing high-speed steel as the base material and featuring long service life. The straight-flute structure with four chip flutes optimizes chip evacuation paths, making it suitable for through-hole machining scenarios and effectively preventing chip accumulation from affecting thread precision. The square shank design enhances compatibility with machine tool fixtures for installation, ensuring stability during the machining process. Leveraging the wear resistance of cobalt-containing high-speed steel and the rationality of structural design, I can maintain stable performance in threading various metal materials, making me suitable for industrial production scenarios with high requirements for machining efficiency and service life, and providing reliable support for thread formation.
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DIN 352straight flute tap Made of cobalt containing high speed steel with cylindrical body square shank and four chip flutes
The tap we produce complies with the DIN 352 standard, crafted from cobalt-containing high-speed steel, boasting excellent wear resistance and strength, and is suitable for threading requirements of various metal materials. The product features a cylindrical body design paired with a square shank structure, which can stably fit various machine tool fixtures, ensuring installation firmness and operational stability during the machining process. The straight flute layout with four chip flutes optimizes chip evacuation paths, making it particularly suitable for through-hole machining scenarios and effectively reducing the impact of chip accumulation on thread precision. Relying on rigorous material selection and structural design, this tap can maintain stable performance in mass production, providing reliable thread forming solutions for the industrial processing field.
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cylindrical body Straight flute tap made of cobalt containing high speed steel and featuring a 60 degree thread profile angle
The straight flute tap we produce is made of cobalt-containing high-speed steel, boasting excellent wear resistance and structural strength, which enables it to meet the threading requirements of various metal materials. The product features a cylindrical body design with strong adaptability, allowing stable installation on various processing equipment. Its straight flute structure optimizes chip evacuation paths, helping to reduce chip accumulation during processing. With a 60-degree thread profile angle that complies with general thread standards, it ensures the precision and compatibility of thread connections, making it suitable for industrial processing scenarios with stable requirements for thread forming quality. Leveraging rigorous material selection and structural design, this tap can maintain stable performance during continuous processing, providing customers with reliable threading support.
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pointed straight-flute taps with left hand threads two chip flutes and a square shank are suitable for straight flute machines
The pointed straight-flute tap we produce features a left-hand thread design, with two chip flutes and a square shank structure. Among them, the two chip flutes can effectively optimize chip evacuation paths, adapting to the chip removal requirements in corresponding machining scenarios; the square shank design ensures stable connection with straight-flute machines, guaranteeing firm installation and stable operation during the machining process. Specifically designed for straight-flute machines, this tap is suitable for scenarios requiring left-hand thread machining, and can provide reliable thread forming support in relevant industrial processing.
