橡塑技术与装备
            HINA R&P  TECHNOLOGY  AND EQUIPMENT



                 and thermal stability of pure fluoroelastomer (poly (VDF-  [6]   姬燕飞，张国宁，原晓城，等 . 氯丁橡胶 / 碳纤维复合材料相
                 ter-HFP-terTFE) terpolymer) in alkaline environment[J].  容性的研究 [J]. 橡塑资源利用，2021,(05):26-29.
                 Journal of Fluorine Chemistry,2017,201:55-67.  [7]   王大林，缪小冬，杨宝岭，等 . 取向碳纤维 / 橡胶导热复合材
             [4]   Ameduri B, Boutervin B,Kostov G. Fluoroelastomers:   料的研究进展 [J]. 橡胶科技，2023,21(12):577-581.
                 synt hesis, prope rti es and a ppl i ca ti ons[J].Progre ss in   [8]   雷海军，郑元锁，乐贵强，等 . 短纤维增强氟橡胶的高温强伸
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             [5]   Ameduri B. Fluoropolymers: the right materials for the right   [9]   裴涛，程俊梅，赵树高 . 氟硅橡胶高温老化性能研究 [J]. 有机
                 applications[J].Chemistry-A  European  Journal,2018,24:     硅材料，2013, 27(4):5.
                 18 830-18 841.



                Study on the properties of fluororubber reinforced with carbon fiber

                                                  Han Heng, Wang Jiaojiao

                         (Shenyang University of Chemical Technology, Shenyang 110000, Liaoning, China)
                 Abstract: To investigate the reinforcing effect of carbon fiber content on fluororubber, carbon fiber
             powder was added to the basic formula of fluororubber to modify it. Carbon fiber-fluororubber composite
             materials were prepared using mechanical blending, and the hardness, tensile strength, and elongation at
             break of the composite materials were characterized to study the performance changes of fluororubber
             before and after modification. The experimental results showed that the hardness values of the carbon
             fiber/fluororubber composite materials after aging were all within ±1. As the carbon fiber content increased,
             both the tensile strength and elongation at break decreased. Through comparison, it was found that the
             mechanical properties of the composite material were better when the mass fraction of added carbon fiber
             was 5%.
                 Key words: carbon fiber; fluororubber; high-temperature aging; tensile strength; elongation at break
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                        雄鹰轮胎斩获“2025 年度汽车数智化转型标杆案例奖 ”
                Tercelo Tire wins the "2025 Benchmark Case Award for Automotive Digital and Intelligent Transformation"

                 2025 年 12 月 19 日，CIAS  2025 第七届中国汽车产业数智峰会盛大启幕，雄鹰轮胎凭借全场景数字化系统
             建设成果，成功摘得 “2025 年度汽车数智化转型标杆案例奖 ”，以全链路数智化实践，树立了传统橡胶制造企业
             转型的行业新标杆。
                 作为汽车产业数智化领域的年度盛会，本届峰会汇聚整车制造、零部件配套、数智技术服务等产业链核心力
             量，聚焦数智技术与产业深度融合的创新路径。奖项评选围绕技术创新性、落地实效性、行业示范性三大核心维度，
             历经案例初审、专家答辩、网络评选等严苛环节，最终甄选出具备引领价值的转型典范。
                 针对传统制造行业生产协同割裂、研发转化低效、产线管控滞后等痛点，雄鹰轮胎锚定全场景数字化转型方向，
             重点推进 MOM 系统部署、研发系统迭代与数字孪生系统搭建。打通从研发设计、生产制造到运营管控的全流程
             数据链路，实现生产状态实时监控、研发成果高效转化、虚拟仿真与实体产线精准联动，不仅大幅提升了生产运
             营效率，更构建起品质保障体系。评审专家高度评价，该项目深度契合汽车产业链对零部件配套企业的数智化要求，
             为传统制造企业的全链条数智升级提供了可落地、可复制的实践样本。
                 未来，雄鹰轮胎将持续深化数智技术在制造全场景的渗透应用，进一步完善系统功能与协同效能，以数字化
             赋能高质量发展，为汽车产业及橡胶行业的数智化转型贡献更多 “ 雄鹰方案 ”。
                                                                                  摘编自“中国塑料机械网 ”
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