ThreeBond
Threebond 1400 Series Locking Agents
Manufacturer: Threebond
Made in Japan
Model: 1400 Series (TB1401, TB1401B, TB1401C)
Usage of 1400 Series
Thread Locking Agents for Secure Fastening Solutions
Thread locking adhesives, often anaerobic in nature, utilize metal ions and an oxygen-free environment to cure effectively. Designed to keep screws and bolts tightly secured, these adhesives prevent loosening, leaks, and rust. For applications involving plastic, ThreeBond offers a specialized solvent-based thread locker, ideal for small screws (M6 or smaller), delivering 10-20% higher loosening torque than tightening torque for enhanced stability.
As a trusted OEM partner worldwide, we dedicate ourselves to supplying manufacturers with high-quality thread locking solutions, specifically tailored for automotive and consumer electronics industries. Our thread locking adhesives actively prevent nuts and bolts from self-loosening, addressing tension relaxation, sealing needs, and resistance to vibration.
In manufacturing, where billions of fasteners are used daily, consistent and predictable performance is essential. Thread locking adhesives ensure automobiles, aircraft, and household appliances maintain a secure fit, resulting in superior quality products. ThreeBond’s chemical thread locking adhesives provide a cost-effective solution to prevent failures in threaded fasteners, preserving your reputation as a reliable manufacturer.
Why Choose ThreeBond as Your Thread Locking Partner?
Among numerous options for thread locking adhesives, ThreeBond stands out as a leader in industrial sealants, adhesives, and coatings. With years of research and development, we offer optimized formulas that guarantee top-tier performance and efficiency for your production line. Our commitment focuses on improving production volume while minimizing the risk of assembly failures. Explore our range of thread locking adhesives for reliable results in every application.
PRODUCT SPECIFICATIONS
* Measurements are taken under the standard testing conditions for each grade.