Changxin Textile's Stainless Steel Core Adapted Warp Stop Bar For Loom is constructed from high-quality stainless steel inside and out. Its distinctive, smooth design minimizes deformation and offers excellent corrosion resistance. As a dedicated component for silk loom warp drop bars, it precisely adapts to the loom's operating environment and installation requirements, providing a stable and reliable warp break detection system for high-precision fabrics like silk. It is an ideal choice for silk weaving companies to enhance equipment adaptability and production stability.
Reliable materials and excellent compatibility are the two core advantages of this Customized Stainless Steel Core Adapted Warp Stop Bar For Loom.
Constructed entirely of high-quality stainless steel, it offers 50% higher corrosion resistance than ordinary materials. Even in the humid environment of a silk weaving workshop, it resists rusting over extended periods of use, with an annual corrosion rate of less than 0.005mm. Its unique design ensures a perfect fit with the warp stop bar on the silk loom, ensuring smooth installation and seamless deflection of 0.02mm during operation, preventing vibration and friction with delicate silk yarns. The smooth surface minimizes resistance to warp yarn passage, reducing yarn damage and, in practice, reducing silk fabric breakage rates by 12%.
The Durable Stainless Steel Core Adapted Warp Stop Bar For Loom precisely meets the needs of silk weaving: The high strength provided by the all-stainless steel material withstands the constant stress of high-frequency operation on silk looms, extending its service life to over six years. Its unique design allows for direct installation without modifying the warp stop bar, making the installation process simple and efficient.
As a dedicated accessory for warp stop bars on silk looms, it excels in the production of fine-count, high-density fabrics such as pure silk and imitation silk. It works seamlessly with all types of warp stop bars on silk looms, providing stable structural support for subsequent warp break detection systems and ensuring detection accuracy.
