上海兰邦工业纤维有限公司
Shanghai Labon Technical Fiber Co., Ltd.
兰邦®总部位于上海,生产基地位于江苏盐城,是专业的工业纤维产品生产商。自2005年成立以来,兰邦始终秉持“专注新材料应用研发”的企业理念,基于自身对特性材料与技术的深刻理解,以自主研发的Tree-Fork技术为驱动,在此基础上研发生产了芳纶浆粕和腈纶浆粕,并拥有相关的知识产权集群,为汽车、摩擦、密封等多个领域提供专业的工业纤维相关产品,改进并创造差异化的行业性能解决方案。
Headquartered in Shanghai and with a production base in Yancheng, Jiangsu Province, Labon is a professional manufacturer of industrial fibers. Since its establishment in 2005, Labon has always adhered to the corporate philosophy of "focusing on the R&D of new materials". Based on its in-depth understanding of characteristic materials and technologies, and driven by its self-developed Tree-Fork technology, it has developed and produced aramid and acrylic pulp, and has related intellectual property clusters. It provides professional industrial fiber-related products for automotive, friction, sealing and other fields, and improves and creates differentiated industry performance solutions.
兰邦®浆粕系列产品以自主研发的 Tree-Fork 技术为核心,由兰邦技术团队不断研发升级而成,是高性能的系列产品。与常规产品相比,其“毛羽化”程度更高,强度更强,颗粒抓附匀混能力更优。兰邦®Tree-Fork 技术成熟稳定,能够依据客户的实际需求,为产品提供差异化、定制化服务,满足客户对产品不同性能的要求,助力产品的市场化推广。
兰邦® Tree-Fork 技术 :
完全自主研发的 Tree-Fork 技术,运用全方位、多层次的作用力工艺,促使表面微纤维“挣脱束缚”,形成类似树杈的微观结构。这一独特的表面结构能够有效地抓附混合物中的其他组分,助力基体混合时分散均匀,同时具备芳纶纤维本身的高强度、高模量、耐高温、尺寸稳定等性能。
Labon® pulp series products are high-performance products with self-developed Tree-Fork technology as the core, continuously developed and upgraded by Labon's technical team. Compared with conventional products, it has a higher degree of "feathering", stronger strength, and better particle grasping and mixing ability. Labon® Tree-Fork technology is mature and stable, which can provide differentiated and customized services for products according to customers' actual needs, meet customers' requirements for different performance of products, and help promote the marketization of products.
Labon® Tree-Fork Technology:
The Tree-Fork technology, which is completely independently developed, uses a comprehensive and multi-level force process to promote the surface microfibers to "break free" and form a microstructure similar to tree branches. This unique surface structure can effectively grasp other components in the mixture, help the matrix to disperse evenly during mixing. At the same time, it also possesses the properties of aramid fiber itself, such as high strength, high modulus, high temperature resistance, and dimensional stability, etc.
