Knowledge
Lispring has been engaged in the R&D and production of wave springs and spiral retaining rings for ten years, and has become one of the most professional technology companies in the world.
For ten years, Lispring has been focusing on the R&D and production of wave springs and spiral retaining rings in the past, present and future, aiming to provide reliable and satisfactory products to global high-tech customers. We welcome your inquiries at any time.
A wave spring, also known as a wave washer or coiled wave spring, is a type of compression spring characterized by its unique, wave-like structure made from flat wire. These springs offer a compact solution for applications where space is limited and prec
Laminar Sealing Rings: Engineered for Extreme Sealing Performance Sealing laminar rings are a unique sealing solution known for their exceptional performance in harsh environments. They utilize their inherent expansion force to achieve sealing. When used
A nested wave spring is a high-precision spring made by continuously coiling and layering flat wire. It offers high load capacity, high precision, and space-saving benefits.
The analysis of the mechanical performance and fatigue life of wave springs requires comprehensive consideration of material properties, stress distribution, deformation characteristics, and fatigue mechanisms. Through experiments and simulations, their p
When it comes to spring technology, Belleville (disc) springs and Lispring wave springs are both used to provide force and manage loads in various applications. While Belleville springs are often employed in applications requiring significant load-bearing
Wave Spring Finishes .Carbon steel-oil dip .Stainless-vapor degreased and ultrasonic cleaned .Stainless-passivation .Vibratory deburr
Wave springs are a special type of spring, with a wave-shaped structure that provides significant elastic deformation and a more uniform distribution of force, leading to increasing demands for their standardization.
When designing and selecting a wave spring, it is essential to consider factors such as load, space, material, stiffness, fatigue life, and working environment. Proper wave spring design can effectively enhance product performance, reliability, and servic
Whether you choose a wave spring or a regular spring depends on your specific application requirements. Wave springs are ideal for space-constrained applications, offering consistent preload and high-load capacity. Regular coil springs are better for long
Lispring's wave springs are mainly used in aerospace, new energy vehicles, medical ,oil and gas, wind energy, construction machinery, consumer electronics and other industrial products, such as mechanical seals, electrical connectors, motor bearing preloa