1/2 x 7 Hex Lag Screws
Categories: Hot Dip Galvanized Hex Lag Screws
- Finish: Hot Dipped Galvanized
- Material: Steel
- Color: Gray
- Brand: Midwest
- Scale: Standard
- Length: 7"
- Head Type: Hex
- Drive Size: 3/4" Wrench/Socket
- Drive Type: Wrench/Socket
- Thread Type: Coarse
- Package Type: 5lb Box
Product Description:
The 1/2 x 7 Hex Lag Screws from Midwest are crafted from high-strength steel with a hot-dip galvanized finish, providing excellent corrosion resistance and durability for outdoor and heavy-duty applications. Featuring a large hexagonal head, these lag screws allow for high torque installation using wrenches or sockets, ensuring a secure and reliable fastening in wood, lumber, and structural materials. The deep, coarse threads offer superior holding power, making them ideal for demanding projects that require long-term stability.
These lag screws are perfect for fastening heavy timber structures, decks, fences, and other outdoor construction tasks where strength and durability are critical. Pre-drilling pilot holes helps reduce wood splitting and ensures precise alignment, making installation more efficient and reliable. Whether you’re a professional contractor or a DIY enthusiast, these screws deliver the performance needed for secure, lasting results in wood and timber applications.
Features:
- Made from high-strength steel with a hot-dip galvanized coating for excellent corrosion resistance and long-lasting performance in outdoor and heavy-duty applications.
- Large hexagonal head allows for high torque installation with wrenches or sockets, ensuring secure fastening in wood and structural materials.
- Deep, coarse threads provide superior holding power in wood, lumber, and heavy timber applications.
- Pre-drill pilot holes for efficient driving, reducing wood splitting and ensuring accurate alignment.
- Ideal for demanding outdoor projects, these lag screws deliver unmatched strength and durability, making them perfect for securely fastening heavy timber structures that require reliable, long-term stability.
