ICCONS ThunderboltPro Hex Head is the latest high tensile screw-in, self-tapping concrete and masonry anchor for use in a wide range of materials used in the construction Industry. Installation is quick and easy, simply drill, clean the hole and screw in the anchor. If you are after the best general purpose Screw Bolt in the business, ICCONS Thunderbolt Pro Hex Head is your anchor.
ICCONS ThunderboltPro achieves the Highest Loads while generating Low Expansion forces which can make it a great alternative to adhesive anchors. The ThunderboltPro is also completely removable making it ideal for temporary applications. Unlike mechanical expansion anchors, the ThunderboltPro keys into the base material for the entire depth and diameter of the hole, not just at the base of the hole. This reduces high energy forces within the concrete allowing close anchor spacing and near-to edge anchor locations. 10 sharp thread forming teeth ensure the most secure connection in hard base materials. The ThunderboltPro is a truly versatile anchor, as it can be installed in whole range of base materials such as concrete, block, brick, timber, marble, and stone, just to name a few. The highly engineered design of ICCONS ThunderboltPro is the result of extensive testing and provides market leading load performance. ICCONS ThunderboltPro is a one piece, fast, efficient and cost effective fixing solution for any job.
‚¢ High tensile Boron steel
‚¢ Available in zinc plated and class 4 galvanised finish - perfect for internal or external applications
‚¢ Quick install
‚¢ Stamped cold forged head for fast and accurate identification
‚¢ Industry-standard large hex head ensures secure connection
‚¢ Underside of head ensures anti-rotation design to resist loosening and improves dynamic load performance
‚¢ Chamfered tip centres anchor and aids in installation
‚¢ 15 Degree HI-LOW double lead thread has been optimised to provide fast installation while maintaining a high level of thread engagement
‚¢ Hardened thread cutting teeth for the hardest base materials
‚¢ Ideal for close-to-edge applications due to minimal expansion force