材料工程
材料工程
재료공정
JOURNAL OF MATERIALS ENGINEERING
2009年
12期
1-4,16
,共5页
王珍%陈祥宝%王景鹤%栗付平%王力%郭湘瑶
王珍%陳祥寶%王景鶴%慄付平%王力%郭湘瑤
왕진%진상보%왕경학%률부평%왕력%곽상요
氢化丁腈橡胶%聚甲基丙烯酸酯%互穿聚合物网络%阻尼性能
氫化丁腈橡膠%聚甲基丙烯痠酯%互穿聚閤物網絡%阻尼性能
경화정정상효%취갑기병희산지%호천취합물망락%조니성능
hydrogenated nitrile rubber%polymethacrylate%interpenetrating polymer network%damping property
采用序列法制备氢化丁腈橡胶(HNBR)/聚甲基丙烯酸酯互穿聚合物网络(IPN)阻尼材料.IPN体系的红外曲线在1750~1700cm~(-1)及1190~1150cm~(-1)范围内出现了较强的特征峰,可以证明聚甲基丙烯酸酯的存在.物理机械性能表明,随着甲基丙烯酸酯的酯基体积增大,IPN的硬度、拉伸强度及100%定伸强度减小.动态性能表明HNBR与聚甲基丙烯酸酯形成的IPN体系能够拓宽HNBR的阻尼温度范围.HNBR/聚甲基丙烯酸正丁酯IPN的阻尼因子较高,适用于约束阻尼系统,而HNBR/聚甲基丙烯酸甲酯IPN具有较高的损耗模量和适宜的阻尼因子,适于自由阻尼系统.
採用序列法製備氫化丁腈橡膠(HNBR)/聚甲基丙烯痠酯互穿聚閤物網絡(IPN)阻尼材料.IPN體繫的紅外麯線在1750~1700cm~(-1)及1190~1150cm~(-1)範圍內齣現瞭較彊的特徵峰,可以證明聚甲基丙烯痠酯的存在.物理機械性能錶明,隨著甲基丙烯痠酯的酯基體積增大,IPN的硬度、拉伸彊度及100%定伸彊度減小.動態性能錶明HNBR與聚甲基丙烯痠酯形成的IPN體繫能夠拓寬HNBR的阻尼溫度範圍.HNBR/聚甲基丙烯痠正丁酯IPN的阻尼因子較高,適用于約束阻尼繫統,而HNBR/聚甲基丙烯痠甲酯IPN具有較高的損耗模量和適宜的阻尼因子,適于自由阻尼繫統.
채용서렬법제비경화정정상효(HNBR)/취갑기병희산지호천취합물망락(IPN)조니재료.IPN체계적홍외곡선재1750~1700cm~(-1)급1190~1150cm~(-1)범위내출현료교강적특정봉,가이증명취갑기병희산지적존재.물리궤계성능표명,수착갑기병희산지적지기체적증대,IPN적경도、랍신강도급100%정신강도감소.동태성능표명HNBR여취갑기병희산지형성적IPN체계능구탁관HNBR적조니온도범위.HNBR/취갑기병희산정정지IPN적조니인자교고,괄용우약속조니계통,이HNBR/취갑기병희산갑지IPN구유교고적손모모량화괄의적조니인자,괄우자유조니계통.
Sequential interpenetrating polymer networks (IPNs) based on hydrogenated nitrile rubber (HNBR) and various polyalkyl methacrylates were synthesized. Infrared (IR) spectroscopy showed that there were strong absorbing peaks at 1750-1700cm~(-1)and 1190-1150cm~(-1), suggesting the successful synthesization of polyalkyl methacrylates. With increasing in bulkiness of the ester group of the acrylates the hardness, tensile strength,and 100% modulus decreased because of decreased stiffness of the acrylate phase. Dynamic mechanical thermal analysis proved that IPNs could broaden the damping peaks. HNBR/PBMA IPN had a higher tanδ indicating that it would be suitable to be used in a constrained layer damping system and HNBR/PMMA might be preferable for extensional damping system with higher modulus and reasonable tanδ.