Feature

●Tap Size: M2.5 x 0.45 Screw, H2 Tolerance Spiral flute design, upward cutting removal Right hand thread, clear thread, no glitch, fast tapping speed and high precision
●MATERIAL AND FINISH: High-speed steel tools have high hardness and toughness for wear resistance, suitable for general purpose applications. Features nitride coated surface for rust protection and long life
●Application: Suitable for processing stop holes and sticky materials. Ideal for drilling and tapping of aluminum, die steel, stainless steel, bronze, hard plastic, etc
●Easy to use: Used in drilling machines, tapping machines, CNC, milling machines. When used with tapping oil, you get high quality threads and more durable taps
●Tips: Machine tap is recommended to be used with tap collets with overload protection. When used by hand, the tap can be easily broken due to uneven force


Description

Specifications:
Screw Size: M2.5 x 0.45
Tolerance: H2
Screw Length: 14mm
Square End Size: 2.5 mm
Round shank diameter: 0.1 inches (3 mm)
Total length: 44mm
Round Shank Length: 30 mm
Material: High Speed Steel (HSS 6542)
Finish: Nitride Coating
Cutting Direction: Right Hand
Standard: JIS
Technology: Complete Ground
Package: 2pcs x Spiral Flute Tap

Description:
1.Spiral flute design, upward cutting removal Right hand thread, clear thread, no glitch, precise and fast tapping
2.High speed steel tools have excellent hardness and toughness with excellent abrasion resistance, suitable for general purpose applications. It has only a base board without additional coating, making it ideal for a wide range of applications.
3.Suitable for stopping holes and processing sticky materials. Ideal for drilling and tapping of aluminum, die steel, stainless steel, bronze, hard plastic, etc.
4.Used in drilling machines, tapping machines, CNC, milling machines. When used with tapping oil, you get a higher quality thread and more durable tap.
5. It is recommended to use the machine tap collet with overload protection. When used by hand, the tap can be easily broken due to uneven force.