Exploring the Versatility of Wire Collated Nails: 3 Coil Nails and 15-Degree Siding Nails

Dec 12, 2023 | NEWS

Wire collated nails are widely used in construction and carpentry applications, offering excellent holding power and durability. In this blog post, we will delve into the world of wire collated nail, focusing on two popular types: 3 coil nails and 15 degree siding nails.

Introduce Wire Collated 3 Coil Nails

a) Design and Construction: Wire collated 3 coil nails are specially designed for use with coil nailers. They are manufactured from high-quality steel and are collated using a thin wire or plastic strip that holds the nails together in a coil formation. These nails typically feature a round head and a diamond point for excellent penetration and holding power.

b) Versatility and Holding Power: 3 coil nails are known for their exceptional holding power, making them suitable for a wide range of applications. They are commonly used in framing, sheathing, decking, pallet assembly, and general construction tasks. The coil formation allows for a larger nail capacity, reducing the frequency of reloading the nailer and increasing productivity.

c) Efficient Installation: The coil configuration of these nails enables fast and efficient installation. The continuous coil design allows for quick reloading and smooth feeding into the nailer, minimizing downtime during the nailing process. This feature is particularly beneficial in large-scale construction projects where productivity and time efficiency are paramount.

d) Enhanced Durability: Wire collated 3 coil nails are manufactured from high-quality steel, providing excellent durability and resistance to bending or breaking. This durability ensures that the nails can withstand the rigors of construction applications and maintain their holding power over time.

About Wire Collated 15-Degree Siding Nails

a) Design and Construction: Wire collated 15-degree siding nails are specifically designed for siding and fencing applications. They are collated using a wire strip that holds the nails together at a 15-degree angle, allowing for easy loading into a nail gun. These nails typically have a slender shank, a flat head, and a sharp diamond point for precise and secure fastening.

b) Ideal for Siding and Fencing: The 15-degree collation angle of these nails ensures optimal nail placement in siding and fencing projects. This angle allows the nail gun to reach tight corners and hard-to-reach areas, providing seamless and efficient installation. The slender shank minimizes the risk of splitting the wood, ensuring a secure and aesthetically pleasing finish.

c) Corrosion Resistance: Wire collated 15-degree siding nails are often coated with a protective layer, such as electro-galvanized or stainless steel, to enhance corrosion resistance. This coating helps prevent rusting and extends the lifespan of the nails, making them suitable for exterior applications where exposure to moisture is a concern.

d) Compatibility and Ease of Use: These nails are compatible with most 15-degree coil siding nailers, ensuring seamless integration into your existing toolset. The wire collation simplifies loading and reduces the likelihood of nail jams, enhancing productivity and ease of use on the job site.

Applications and Considerations Through These Collated Nails

a) Wide Range of Applications: Wire collated nails, including 3 coil nails and 15-degree siding nails, find applications in various construction, carpentry, and woodworking projects. They are commonly used in framing, sheathing, decking, siding installation, fencing, and other general construction tasks. The versatility and holding power of these nails make them indispensable in the industry.

b) Considerations for Material and Project Requirements: When choosing wire collated nails, consider the material you are working with and the specific requirements of your project. Different materials may require specific nail coatings or materials to ensure long-term durability and resistance to corrosion. Additionally, ensure that the nail length and diameter are appropriate for the application to achieve optimal holding power and performance.