Grey Pneumatic 3009A 3/4" Drive Female to 1" Male Adapter with Friction Ball Socket
Grey Pneumatic 3009A 3/4" Drive Female to 1" Male Adapter with Friction Ball Socket
- The Grey Pneumatic 3009A Adapter is designed to provide a secure connection between tools with a 3/4" drive female end and a 1" drive male end. Engineered for heavy-duty applications, it ensures reliable torque transfer, making it ideal for automotive, industrial, and mechanical use. Crafted from high-quality materials, this adapter guarantees durability and performance under demanding conditions.
- Features:
- Heavy-duty construction for professional use
- Connects 3/4" drive female to 1" drive male
- Made from high-strength alloy steel
- Corrosion-resistant finish for long service life
- Precision-machined for a secure and accurate fit
- Specifications:
- Manufacturer: Grey Pneumatic
- Part Number: 3009A
- Product Type: Socket Drive Adapter
- Drive Size (Female): 3/4"
- Drive Size (Male): 1"
- Material: High-strength alloy steel
- Finish: Corrosion Resistant Coating
- Country of Origin: USA
- The Grey Pneumatic 3009A Adapter can also be referred to as socket drive adapter, 3/4" to 1" adapter, Grey Pneumatic adapter, heavy-duty socket adapter, and impact socket adapter.
Grey Pneumatic is a renowned manufacturer in the automotive and industrial tool industry, specializing in high-quality impact sockets and related accessories. Their commitment to innovation and durability has made them a trusted choice among professionals seeking reliable tools for demanding applications.
Q: What materials are used in the Grey Pneumatic 3009A Adapter?
A: The adapter is crafted from high-strength alloy steel with a corrosion-resistant finish for enhanced durability.
Q: Is the Grey Pneumatic 3009A Adapter compatible with impact tools?
A: Yes, it is designed for use with both hand tools and impact tools in heavy-duty applications.
Q: Can I use this adapter for industrial applications?
A: Absolutely, it is engineered for automotive, industrial, and mechanical settings where strength and reliability are critical.
