BENEFITS
Coiled tension elements provide reliable resistance and controlled retraction in mechanical systems. They maintain consistent tension over repeated cycles, enhancing product longevity and performance. These springs are vital in securing moving parts, ensuring safety, and absorbing shock. Ideal for garage doors, trampolines, and machinery, they deliver precise force management, improve operational efficiency, and reduce wear on connected components.
FEATURES
Coiled tension elements are precision-engineered from high-tensile metals, designed to stretch under load and return to their original shape. They come in various diameters, lengths, and coil densities for tailored tension applications. These elements feature looped or hooked ends for easy integration into assemblies. Their corrosion-resistant finish ensures long-lasting performance in both indoor and outdoor environments.
BENEFITS
Resilient load components absorb shock, dampen vibration, and evenly distribute weight, protecting surrounding structures. They enhance the performance and safety of mechanical systems under load. Common in automotive suspensions, heavy machinery, and load-bearing equipment, these components improve handling, extend equipment life, and reduce the impact of stress and fatigue on structural elements during repetitive use.
FEATURES
Resilient load components are built to compress and expand under load, offering dependable force distribution. Manufactured using heat-treated alloys, they feature uniform pitch and spacing for balanced stress handling. Available in multiple shapes—cylindrical, conical, or barrel—they support heavy-duty use. These components are often used in suspension systems and industrial equipment for stability under dynamic forces.
BENEFITS
Elastic force mechanisms utilize the properties of elasticity to store and release energy efficiently. Typically made from hardened steel or composite materials, they can be coiled, flat, or torsional in design. These mechanisms are engineered for predictable force control and are available in standard or custom formats. Their compact structure makes them suitable for limited-space mechanical applications.
FEATURES
Elastic force mechanisms allow smooth motion control, energy storage, and return-to-position capabilities. They enhance mechanical efficiency by reducing the need for complex actuation systems. Common in clocks, toys, and precision tools, they offer dependable repeatability. Their adaptability to compact designs makes them essential in space-constrained applications requiring controlled force without compromising on performance or reliability.
Applications & Grades
They are a base material in applications that do not require any formability beyond minimal bending and/or roll-forming.
- Large and Small Electric Motors
- Generators
- Ballasts
- Transformers