Grey Pneumatic 3174D 3/4" Drive x 2-5/16" Deep Impact Socket, 12-Point
- The Grey Pneumatic 3174D is a 3/4" drive, 2-5/16" deep, 12-point impact socket designed for high-torque applications. Ideal for automotive and industrial use, it ensures durability and a secure fit for fasteners.
- Features:
- High-strength alloy steel construction for enhanced durability
- 12-point design for improved grip and reduced slippage
- Impact-rated for use with pneumatic and electric impact wrenches
- Precision-machined to ensure accurate fit and performance
- Specifications:
- Manufacturer: Grey Pneumatic
- Part Number: 3174D
- Drive Size: 3/4"
- Socket Depth: 2-5/16"
- Point Count: 12-point
- Material: High-strength alloy steel
- Finish: Black oxide for corrosion resistance
- Application: Automotive and industrial fastening
- The Grey Pneumatic 3174D 3/4" DR X 2-5/16" DEEP - 12 Point IM can also be referred to as 3/4" drive deep impact socket, 2-5/16" deep 12-point socket, Grey Pneumatic impact socket, automotive impact socket, and industrial impact socket.
Grey Pneumatic is renowned for manufacturing high-quality impact sockets and hand tools, serving the automotive and industrial sectors with precision-engineered products designed for durability and performance.
Q: Is this socket compatible with standard 3/4" drive ratchets?
A: Yes, the 3174D socket is designed to fit standard 3/4" drive ratchets and impact wrenches.
Q: What is the material composition of this socket?
A: The socket is made from high-strength alloy steel, providing enhanced durability and resistance to wear.
Q: Can this socket be used with pneumatic impact wrenches?
A: Yes, the 3174D is impact-rated and suitable for use with pneumatic and electric impact wrenches.
Q: What is the finish on this socket?
A: The socket features a black oxide finish, offering corrosion resistance and a non-reflective surface.
Q: Is this socket suitable for automotive applications?
A: Yes, the 3174D is ideal for automotive applications, providing a secure fit for fasteners and ensuring durability under high-torque conditions.
