Enhancing the damping and mechanical properties of phenyl silicone rubber by introducing phenyl MQ silicone resins as molecular fillers

IF 6.5 2区 材料科学 Q1 MATERIALS SCIENCE, COMPOSITES Composites Communications Pub Date : 2024-09-17 DOI:10.1016/j.coco.2024.102082
Xinyi Han , Wei Zheng , Jinghao Hao , Hua Wang , Lin Zhu , Chuanjian Zhou
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Abstract

Silicone rubber features excellent thermal stability, outstanding low-temperature performance, and superb processability, however, the poor damping property and low mechanical strength limit its applications. In this work, we synthesized two types of phenyl MQ resins as molecular fillers and incorporated them into phenyl silicone rubber to prepare damping composites. The effects of both the phenyl MQ resin structures and contents on the damping properties and mechanical performances were investigated. The results showed that phenyl MQ resins exhibit multiscale damping effects with temperature rising, and phenyl MQ resins are distributed in silicone rubber with a "sea-island" structure, which strengthen the mechanical property. The composite exhibit optimal performance with incorporating 30phr diphenyl MQ resins: the damping factor at 150 °C increased from 0.1 to 0.18, the temperature range for tan δ > 0.3 expanded by 115.2 %, and maintained a tensile strength of 6.3 MPa. This study paves a new path to design and prepare silicone rubber composite that balance high damping performances with better mechanical strength.

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通过引入苯基 MQ 硅树脂作为分子填料,增强苯基硅橡胶的阻尼和机械性能
硅橡胶具有优异的热稳定性、出色的低温性能和超强的可加工性,但阻尼性能差、机械强度低,限制了其应用。在这项工作中,我们合成了两种苯基 MQ 树脂作为分子填料,并将其加入苯基硅橡胶中制备阻尼复合材料。研究了苯基 MQ 树脂结构和含量对阻尼性能和机械性能的影响。结果表明,苯基 MQ 树脂随着温度的升高表现出多尺度阻尼效应,苯基 MQ 树脂以 "海岛 "结构分布在硅橡胶中,增强了力学性能。加入 30phr 二苯基 MQ 树脂的复合材料表现出最佳性能:150 °C 时的阻尼系数从 0.1 增加到 0.18,tan δ > 0.3 的温度范围扩大了 115.2%,拉伸强度保持在 6.3 MPa。这项研究为设计和制备兼顾高阻尼性能和更好机械强度的硅橡胶复合材料铺平了新的道路。
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来源期刊
Composites Communications
Composites Communications Materials Science-Ceramics and Composites
CiteScore
12.10
自引率
10.00%
发文量
340
审稿时长
36 days
期刊介绍: Composites Communications (Compos. Commun.) is a peer-reviewed journal publishing short communications and letters on the latest advances in composites science and technology. With a rapid review and publication process, its goal is to disseminate new knowledge promptly within the composites community. The journal welcomes manuscripts presenting creative concepts and new findings in design, state-of-the-art approaches in processing, synthesis, characterization, and mechanics modeling. In addition to traditional fiber-/particulate-reinforced engineering composites, it encourages submissions on composites with exceptional physical, mechanical, and fracture properties, as well as those with unique functions and significant application potential. This includes biomimetic and bio-inspired composites for biomedical applications, functional nano-composites for thermal management and energy applications, and composites designed for extreme service environments.
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