1. Chemical bonding
Chemical reaction: During the installation process, Inner Hexagon Chemical Anchor injects chemicals (such as resin) into pre-drilled holes and inserts anchor bolts. These chemicals react chemically with the substrate (such as concrete) in the hole to form a strong bonding force.
No expansion stress: Unlike traditional mechanical anchors, chemical anchors do not rely on expansion forces for fixing, so they do not generate additional stress on the substrate, thereby reducing the risk of substrate cracking.
2. High-strength materials
Material selection: Inner Hexagon Chemical Anchor is made of high-strength stainless steel or carbon steel materials, which have high tensile strength and shear strength.
Surface treatment: The surface of the anchor bolt may be galvanized, hot-dip galvanized or other anti-corrosion treatments to improve its corrosion resistance and durability, thereby maintaining the strength of the fixation for a long time.
3. Precise size and shape
Hexagon design: The hexagon design makes the anchor more stable during installation and tightening, reducing torque loss caused by tool slippage.
Precise tolerance control: Precise tolerance control during the production process ensures a good fit between the anchor and the chemical agent, as well as precise position and height fixation after installation.
4. Wide applicability
Multiple substrates: Inner Hexagon Chemical Anchor is suitable for a variety of substrates, including concrete, rock, brick walls, etc., providing a reliable fixing solution for different types of structures.
Different environments: Whether indoors or outdoors, whether in dry or humid environments, chemical anchors can provide stable fixing effects.
5. Earthquake resistance
Improve earthquake resistance: When natural disasters such as earthquakes occur, Inner Hexagon Chemical Anchor can rely on its strong chemical bonding and material strength to effectively resist the displacement and deformation of the structure, thereby protecting the safety of the overall structure.