4mm x 12mm Polyfix 45° Thread Profile - T15 Torx Countersunk Screws - Stainless Steel - (A2) Description
The 4mm x 12mm Polyfix 45° Thread Profile - T15 Torx Countersunk Screws - Stainless Steel - (A2) has the following features:
- Drive Size: T15
- Natural Finish
- Head Diameter (D): 7.35 mm
- Head Height (H): 1.9 mm
- Length (L): 12 mm
- Manufacturing Standard: N/A
- Stainless Steel Material Family
- Stainless Steel - (A2) Screw Material
- System of Measurement: Metric
- Thread Profile: 45 Degrees
- Thread Size: 4 mm
Discover more about the 45° Thread Profile Torx Countersunk Screws range.
45° thread profile torx countersunk self-tapping screws are high-performance self tapping fasteners designed for the precision assembly of thermoplastics and resin-based components. They feature a specialised 45° thread angle that slices cleanly into plastic, reducing radial stress and preventing boss bursting.
The defining characteristics of these components are their countersunk head, which allows for a flush, aerodynamic finish and their drive. The torx drive is favoured in high-tech industries for its ability to withstand higher torque application without cam-out, making these screws ideal for automated assembly lines or applications requiring repeated adjustment.
How 45° Thread Profile Torx Countersunk Self-Tapping Screws Work
The 45° thread profile taps its own thread by cutting into the material at a sharper angle than standard 60° screws. This reduces the radial hoop stress exerted on the plastic boss, significantly lowering the risk of cracking during installation, a critical advantage when working with brittle 3D printed materials or thin-walled injection moulded parts.
The torx drive enhances this process by ensuring maximum torque transfer. Unlike cross-head drives (phillips or pozi) which rely on the driver pushing forward to maintain contact, the torx design engages perpendicularly. This virtually eliminates cam-out, ensuring the screw is driven smoothly and consistently to the correct depth without damaging the drive recess or the surrounding flush surface.
These components can be utilised in the assembly of drone chassis and robotic components. The countersunk head maintains the aerodynamic profile of the device, while the torx drive allows technicians to apply precise torque settings during assembly without stripping the screw head, ensuring the drone can be easily serviced later.
Materials 45° Thread Profile Torx Countersunk Self-Tapping Screws Are Made From
Manufactured from A2 Stainless Steel, these screws offer excellent resistance to corrosion and oxidation, ensuring longevity in outdoor or humid environments. To meet varying design requirements, they are available in two finishes:
- Natural: A clean, passivated stainless steel finish that offers a professional, industrial look.
- AccuBlack: A specialised, non-reflective chemical black coating. This finish is ideal for discrete integrations in black plastic housings, such as VR headsets or automotive dashboards, where reflection must be minimised.
Sizes and Types of 45° Thread Profile Torx Countersunk Self-Tapping Screws Available
This range is tailored for small-scale, high-precision assemblies. We stock thread diameters from 3mm to 4mm, which are standard for modern plastic enclosures. Lengths range from 6mm to 20mm, ensuring compatibility with a wide variety of material thicknesses and boss depths.
FAQs
Q: Why choose Torx over Pozi for plastic screws?
A: torx drives offer superior resistance to cam-out compared to a pozi drive. This allows for higher torque transmission and greater control during installation, which is vital for preventing damage to soft plastic threads or the screw head itself.
Q: Do I need to chamfer the hole for these screws?
A: To ensure the countersunk head sits perfectly flush with the surface, the hole should be chamfered. If you are 3D printing or moulding the part, this feature can be included in the design.
Q: Are these screws compatible with 3D printed PLA and ABS?
A: The sharp 45° thread profile is specifically designed to minimise stress on the material, making them excellent for 3D printed parts where layer adhesion can be a weak point.
