8 x 1-5/8 Cement Board Self-Drilling Screws
Categories: Phillips Self-Drilling Cement Board Screws
- Finish: Coated
- Material: Steel
- Color: Gray
- Brand: BuildRight
- Length: 1-5/8"
- Diameter: #8
- Head Type: Bugle
- Drive Size: #2 Phillips
- Drive Type: Phillips
- Package Type: 5lb Box
Product Description:
“Experience unmatched efficiency and strength with BuildRight® self-drilling Phillips drive cement board screws. Designed for professional results, these screws feature a self-drilling tip that quickly cuts through light gauge metals, eliminating the need for pre-drilling and streamlining your installation process. The serrated head mills seamlessly into cement board, countersinking cleanly to prevent chipping and crumbling, ensuring a smooth and secure attachment.
Protected by a durable gray ceramic coating, these screws resist corrosion, providing long-lasting reliability for all your projects. The flat head design sits flush, guaranteeing a clean, professional finish every time. Additionally, the sharp thread design enhances holding power and reduces driving torque, making installation quicker and easier. Choose BuildRight® self-drilling Phillips drive cement board screws for your next project and benefit from superior performance, durability, and ease of use.”
Features:
- Crafted from durable steel with a protective coated finish, this screw delivers long-lasting strength and reliable performance for all your fastening needs.
- Featuring a bugle head and Phillips drive, this screw ensures smooth countersinking and excellent torque control for versatile, secure fastening in a variety of projects.
- Engineered for superior grip and resistance, this screw’s robust design enhances durability and ensures your projects stay securely fastened under pressure.
- Ideal for a wide range of fastening applications, this screw provides dependable performance and strength, making it a versatile choice for both professional and DIY projects.
- Designed for precision fastening, this screw delivers reliable strength in tight spaces, making it ideal for detailed assembly tasks where accuracy is paramount.
