3/8 x 1 Hex Lag Screws
Categories: Hot Dip Galvanized Hex Lag Screws
- Finish: Hot Dipped Galvanized
- Material: Steel
- Color: Gray
- Brand: Midwest
- Scale: Standard
- Length: 1"
- Head Type: Hex
- Drive Size: 9/16" Wrench/Socket
- Drive Type: Wrench/Socket
- Thread Type: Coarse
- Package Type: Refill Box
Product Description:
These 3/8 x 1 Hex Lag Screws from Midwest are crafted from high-strength steel and feature a hot-dip galvanized finish, providing excellent corrosion resistance and long-lasting durability for outdoor and heavy-duty applications. The large hexagonal head allows for high torque installation using wrenches or sockets, ensuring a secure fastening in wood and structural materials. Deep, coarse threads deliver superior holding power in wood, lumber, and heavy timber.
Designed for demanding construction projects, these lag screws are ideal for securely fastening heavy timber and structural wood where strength and reliability are essential. Pre-drilling pilot holes helps reduce wood splitting and ensures accurate alignment, making installation efficient and precise. Perfect for builders, contractors, and DIY enthusiasts working on decks, framing, and other structural applications, these lag screws combine performance and durability to meet the toughest fastening needs.
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 construction projects, these lag screws deliver unmatched strength and durability, making them the perfect choice for securely fastening heavy timber and structural wood where reliability is critical.
