Grey Pneumatic 1013M 3/8" Drive x 13mm Standard Impact Socket, 6-Point, Chrome Molybdenum Steel
- The Grey Pneumatic 1013M 3/8" Drive x 13mm Standard Impact Socket is engineered for professionals requiring a durable and precise tool for high-torque applications. Its robust construction and design ensure reliable performance in automotive and industrial settings.
- Features:
- Constructed from high-quality chrome molybdenum alloy steel for enhanced strength and longevity
- 6-point socket design provides a secure grip on fasteners, reducing the risk of rounding
- Standard length design suitable for various applications
- High Torque Drive transfers pressure from the thinnest part of the socket wall toward the thicker section, increasing strength
- Laser-etched and roll-stamped markings for easy size identification
- Specifications:
- Manufacturer: Grey Pneumatic
- Part Number: 1013M
- Drive Size: 3/8"
- Socket Size: 13mm
- Number of Points: 6
- Material: Chrome molybdenum alloy steel
- Finish: Black oxide
- Overall Length: Standard
- Country of Origin: Taiwan
- The Grey Pneumatic 1013M Impact Socket can also be referred to as 3/8" drive 13mm socket, 6-point impact socket, chrome molybdenum socket, standard length metric socket, and high torque impact socket.
Grey Pneumatic is a leading manufacturer of high-quality impact sockets and tools, renowned for their durability and precision. Catering to professionals in automotive and industrial sectors, Grey Pneumatic offers a comprehensive range of products designed to meet rigorous demands.
Q: Is the Grey Pneumatic 1013M socket suitable for use with impact wrenches?
A: Yes, the 1013M is specifically designed for use with impact tools, providing durability under high torque applications.
Q: What material is the socket made from?
A: The socket is constructed from high-quality chrome molybdenum alloy steel, ensuring strength and longevity.
Q: How does the High Torque Drive design benefit the user?
A: The High Torque Drive design transfers pressure from the thinnest part of the socket wall toward the thicker section, increasing strength and reducing the risk of socket wall failure.
