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| 抗湿滑树脂在轮胎胎面胶中的应用研究 |
| Application Study on Anti Wet Skid Resin in Tread Compound of Tire |
| Received:July 13, 2020 Revised:July 13, 2020 |
| DOI:10.12137/j.issn.2095-5448.2020.12.0686 |
| 中文关键词: 抗湿滑树脂;胎面胶;相容性;抗湿滑性能;滚动阻力;损耗因子;生热 |
| 英文关键词: anti wet skid resin;tread compound;compatibility;anti wet skid;rolling resistance;loss factor;heat generation |
| 基金项目: |
| 中图分类号: |
| Author Name | Affiliation | E-mail | | SUN zheng* | Qingdao doublestar tire industrial co., LTD | Sunzheng@doublestar.com.cn | | ZHANG jing | Qingdao doublestar tire industrial co., LTD | | | WANG Ziqi | Qingdao doublestar tire industrial co., LTD | | | HUNAG Yigang | Qingdao doublestar tire industrial co., LTD | | | WANG Guilin | Qingdao doublestar tire industrial co., LTD | | | LIU Li | Qingdao doublestar tire industrial co., LTD | |
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| 中文摘要: |
| 研究国内外不同软化点的抗湿滑树脂在轮胎胎面胶中的应用。结果表明:在胎面胶配方中,采用10份不同抗湿滑树脂等量替代环烷油,胶料的门尼粘度均有所提高,FL和Fmax均小幅上升,门尼焦烧时间和t90变化不大;硫化胶的硬度、定伸应力和拉伸强度略有提高,撕裂强度和耐磨性能变化不大;胶料的玻璃化温度升高,0 ℃时的损耗因子(tanδ)大幅增大,可显著改善抗湿滑性能;60 ℃时的tanδ变化不大,对滚动阻力影响较小。由线性回归分析可知,胶料的压缩疲劳温升与橡胶-树脂相容性存在一定相关性,针对不同橡胶基体选择相容性最佳的树脂是降低胶料滞后生热的关键。 |
| 英文摘要: |
| The application of anti wet skid resin in tread compound of tire was studied.The results showed that,in the tread compound formulation,using 10 phr different wet skid resistant resins to replace the naphthenic oil equivalently,the Mooney viscosity of the compound increased,FL and Fmax increased slightly,the Mooney scorch time and t90 changed little,hardness,modulus and tensile strength of vulcanizate increased slightly,tear strength and wear resistance changed little,glass transition temperature of compound increased,the loss factor(tanδ) at 0 ℃ increased greatly,which could significantly improve the wet skid resistance,tanδ at 60 ℃ changed little,which had little effect on rolling resistance.According to the linear regression analysis,there was a certain correlation between the compression fatigue temperature rise and the rubber-resin compatibility.The key to reduce the hysteresis heat generation was to select the resin with the best compatibility for different rubber matrix. |
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