天然橡胶/顺式聚丁二烯橡胶复合材料粘弹性及动态疲劳裂纹扩展行为

IF 1.2 4区工程技术 Q4 POLYMER SCIENCE Rubber Chemistry and Technology Pub Date : 2022-11-16 DOI:10.5254/rct.22.78925

Qingyuan Han, Youping Wu

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引用次数: 0

摘要

由于顺式聚丁二烯橡胶(BR)能在低撕裂能(G)范围内提高天然橡胶(NR)的抗疲劳裂纹扩展(FCG)能力，因此在轮胎材料中经常采用NR/BR共混体系。本研究以断裂力学角度建立的(FCG速率(dc/dN)−G)关系为基础，在Persson理论的启发下，从粘弹性角度出发，研究了NR/BR的FCG行为及其机理。制备了不同掺合比例的NR/BR，测定了不同G输入(500/1500 J/m2)下的dc/dN。根据现场记录的粘弹性参数(储存模量E′、损耗因子tan δ、损耗柔度模量J″)，确定了裂纹尖端处的能量耗散分布(裂纹尖端内FCG的能量消耗:G0，裂纹尖端附近线性粘弹性区能量损失:G0f [v, T])，最终建立了(粘弹性- dc/dN)关系。当G = 500 J/m2时，与纯NR相比，共混BR可以降低dc/dN。一方面，随着BR掺量的增加，交联密度的增加和填料网络的增强提供了更大的刚性，从而增加了E ';另一方面，较低的玻璃化转变温度和BR的柔性链降低了磁滞，从而降低了tan δ。共同作用导致J″降低，导致G0f (v, T)增大，G0减小，最终导致dc/dN降低。相比之下，当G = 1500 J/m2时，BR含量为bbb50 phr时，dc/dN显著增加。虽然增加BR会明显降低J″并导致大量的G0f (v, T)，但由于没有应变诱导结晶，当G增加时，BR的链取向难以抵抗FCG。最后，捕获裂纹尖端扩展路径的形貌，以证实NR和BR的不同取向特征及其对FCG行为的影响。

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VISCOELASTICITY AND DYNAMIC FATIGUE CRACK GROWTH BEHAVIOR OF NATURAL RUBBER/CIS-POLYBUTADIENE RUBBER COMPOSITES

Because cis-polybutadiene rubber (BR) can improve the fatigue crack growth (FCG) resistance of natural rubber (NR) in the low-tearing-energy (G) range, a blending system of NR/BR is often used in tire materials. In this study, based on relationship of (FCG rate (dc/dN) − G) established from the perspective of fracture mechanics and then inspired by Persson's theory and starting from the perspective of viscoelasticity, the FCG behavior and mechanism of NR/BR were investigated. NR/BR with different blending ratios were prepared, and dc/dN under different G inputs (500/1500 J/m2) was measured. According to the viscoelastic parameters (storage modulus E′, loss factor tan δ, and loss compliance modulus J″) recorded in situ, energy dissipation distribution at the crack tip (energy consumption for FCG inside crack tip: G0 and energy loss in linear viscoelastic zone near crack tip: G0f [v, T]) was determined, and the relationship of (viscoelasticity − dc/dN) was finally set up. When G = 500 J/m2, blending BR can reduce dc/dN as compared with pure NR. On one hand, with a higher BR fraction, an increased cross-linking density and enhanced filler network provided greater rigidity, which increased E′; on the other hand, a low glass transition temperature and flexible chain of BR reduced hysteresis, which decreased tan δ. The joint action led to a decrease in J″, which caused more G0f (v, T) and less G0, resulting in the ultimate reduction of dc/dN. In contrast, for G = 1500 J/m2, when the BR content was >50 phr, dc/dN showed a significant increase. Although more BR evidently decreased J″ and then led to a large amount of G0f (v, T), due to absence of strain-induced crystallization, the chain orientation of BR was hard to resist FCG when G increased. Finally, the morphology of the crack tip propagation path was captured to corroborate the different orientation characteristics of NR and BR and their effects on FCG behavior.

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来源期刊

Rubber Chemistry and Technology 工程技术-高分子科学

CiteScore

3.50

自引率

20.00%

发文量

审稿时长

3.6 months

期刊介绍： The scope of RC&T covers: -Chemistry and Properties- Mechanics- Materials Science- Nanocomposites- Biotechnology- Rubber Recycling- Green Technology- Characterization and Simulation. Published continuously since 1928, the journal provides the deepest archive of published research in the field. Rubber Chemistry & Technology is read by scientists and engineers in academia, industry and government.