Made from high-strength chrome vanadium steel for strength and durability, our 1/2" impact sockets and accessories are resistant to round out than the standard impact sockets and accessories, resulting in a longer useable life.
- UNMATCHED STRENGTH AND DURABILITY: The Performance Tool M964 1/2-Inch Female x 3/4-Inch Male Impact Adapter is made from Drop Forged Chrome Vanadium Steel, ensuring maximum strength and durability to tackle even the toughest jobs.
- EASY IDENTIFICATION: Featuring Large Size Laser Etching, this adapter is easily identifiable, allowing you to quickly locate the right tool for the job.
- VERSATILE: Designed to adapt 1/2-Inch drive impact wrenches to 3/4-Inch drive sockets, this adapter provides added versatility to your tool collection.
- PRECISION ENGINEERED: The adapter is engineered with precision to ensure accurate and reliable performance every time you use it.
- RELIABLE PERFORMANCE: Whether you're a professional mechanic or a DIY enthusiast, you can count on the Performance Tool M964 1/2-Inch Female x 3/4-Inch Male Impact Adapter to deliver reliable performance and stand up to heavy use over time.
- UNMATCHED STRENGTH AND DURABILITY: The Performance Tool M964 1/2-Inch Female x 3/4-Inch Male Impact Adapter is made from Drop Forged Chrome Vanadium Steel, ensuring maximum strength and durability to tackle even the toughest jobs.
- EASY IDENTIFICATION: Featuring Large Size Laser Etching, this adapter is easily identifiable, allowing you to quickly locate the right tool for the job.
- VERSATILE: Designed to adapt 1/2-Inch drive impact wrenches to 3/4-Inch drive sockets, this adapter provides added versatility to your tool collection.
- PRECISION ENGINEERED: The adapter is engineered with precision to ensure accurate and reliable performance every time you use it.
- RELIABLE PERFORMANCE: Whether you're a professional mechanic or a DIY enthusiast, you can count on the Performance Tool M964 1/2-Inch Female x 3/4-Inch Male Impact Adapter to deliver reliable performance and stand up to heavy use over time.
