4mm-0.70 x 20mm Metric Phillips Pan Machine Screws
Categories: Metric Phillips Drive Pan Head Machine Screws
- Finish: Zinc Plated
- Material: Steel
- Color: Silver
- Brand: Midwest
- Scale: Metric
- Length: 20mm
- Head Type: Pan
- Drive Size: #1 Phillips
- Drive Type: Phillips
- Thread Type: Coarse
- Package Type: Refill Box
Product Description:
These 4mm-0.70 x 20mm Metric Phillips Pan Machine Screws from Midwest are crafted from Class 4.8 steel, delivering dependable strength for light to medium-duty fastening needs. The zinc-plated finish offers enhanced protection against rust and corrosion, making these screws well-suited for both indoor and dry outdoor environments. Their coarse thread design ensures strong holding power across metal, wood, and composite materials, providing a secure and stable connection.
Featuring a rounded pan head that sits neatly above the surface, these screws create a clean, finished appearance. The Phillips drive allows for easy installation using standard screwdrivers or power tools, making them ideal for precision assembly tasks. Commonly used in electronics and small machinery, these metric Phillips pan machine screws provide consistent performance without compromising delicate components, making them a reliable choice for both professional and DIY applications.
Features:
- Made from Class 4.8 steel, these screws offer reliable strength for light to medium-duty fastening applications.
- The zinc plated finish helps protect against rust and corrosion, making them suitable for indoor and dry outdoor use.
- Featuring a coarse thread, these screws provide strong holding power in metal, wood, and composite materials, ensuring a stable connection.
- The rounded pan head sits above the surface for a neat, finished look, and the Phillips drive allows easy installation with standard screwdrivers or power tools.
- Ideal for precision assembly tasks, these metric Phillips pan machine screws deliver consistent performance in electronics and small machinery, ensuring secure fastening without compromising delicate components.
