EVA-LAST Starborn - Cap-Tor xd 316SS Screws Timber 10g x 65mm packet of 100
EVA-LAST Starborn - Cap-Tor xd 316SS Screws Timber 10g x 65mm packet of 100
EVA-LAST Starborn - Cap-Tor xd Headcote®316 Stainless Steel Screws
10g x 65mm for Timber Joists
Cap-Tor® screws for all composite decking. Packet of 100.
Eva-Last Pioneer #31 Spotted Gum, Tan Brown
Eva-Last Apex Plus #64 Himalayan Cedar, Beige
Eva-Last Pioneer #64 Blackbutt Natural, Beige
Eva-Last Pioneer #64 Blackbutt Oiled, Beige
Eva-Last Infinity #65 Oasis Palm, Light Brown
Eva-Last Apex Plus #71 Brazilian Teak, Brown
Eva-Last Apex Plus #71 Hawaiian Walnut, Brown
Eva-Last Infinity #71 Tiger Cove, Brown
Eva-Last Infinity #81 Fire Koa, Beige
Eva-Last Infinity #73 Spanish Saffron, Light Brown
The Original is still the Best!
Since 1961 the Starborn company has provided unique and innovation products to the decking market. The first colour-coded Cap-Tor® composite decking screw to match all the major brands is a perfect example.
Cap-Tor® xd screws are specifically designed to provide a clean, smooth and uniform finish in composite and PVC decking. They also work equally well in traditional uncapped composites. Cap-Tor xd is approved for use with all major deck brands.
Cap-Tor xd screws feature extra deep star drive recesses, undercut heads, reverse threads, tri-lobular shanks, Type 17 auger tips, and are available with either a color matched, epoxy-based polymer resin coating or in color matched Headcote® stainless steel Marine Grade 316.
Product Features
Materials: Available in epoxy coated carbon steel and Marine Grade 316 Stainless Steel.
ACQ: Approved for use with ACQ treated lumber.
Star Drive
Favored by professionals; extra deep recess reduces cam-out.
Undercut Head
Cleanly penetrates the hard outer layer of capstock decking.
Reverse Thread
Prevents mushrooming and other surface defects
Tri-lobe Shank and Acute Thread Angle
For increased driving power and cleaner penetration through harder decking materials.
Type 17 Auger Tip
For faster, easier entry; helps prevent splitting.