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丁腈橡胶分子结构与耐低温性能间的关系OA

Relationship Between Molecular Structure of Nitrile Butadiene Rubber and Low-Temperature Properties

中文摘要英文摘要

以丁腈橡胶(NBR)为研究对象,研究了 NBR的丙烯腈(ACN)摩尔分数、门尼黏度(MV)和橡胶复合物中NBR性能及其摩尔分数对玻璃化转变温度(Tg)、低温拉伸回缩温度(TR)和压缩耐寒系数(CCRC)等低温性能的影响,由结果可知:ACN与NBR的Tg间具有线性关系(决定系数R2=0.9711),是NBR耐低温性能的决定因素;然而,不同的ACN摩尔分数导致NBR中序列分布不同,因此其玻璃化转变区间(ΔTg)由4.24 ℃增加到12.55℃,动态力学测试中的最大值损耗因子(tanδmax)在0.83~1.19之间变化,二者之间具有线性关系,R2=0.9628;TR实验中,不同ACN的NBR在相同回缩率的温度与Tg呈线性关系,其中起始回缩温度(TRs)与差示扫描量热法(DSC)测试的玻璃化转变温度(Tg-DSC)之间为线性关系,其R2为0.9991;同时,TR测试结果与CCRC结果之间具有很好的一致性.MV是NBR耐低温性能的影响因素,相同ACN摩尔分数时,MV升高,TR温度降低,CCRC增加.在NBR复合物中,不同ACN的NBR混合物表现出部分相溶特征;2种丙烯腈橡胶共混物中,高ACN含量的NBR对共混体系的耐低温性能具有决定作用,其Tg-DSC与TRs具有较好的线性关系,R2=0.9964.因此,相同ACN摩尔分数情况下,单一 NBR橡胶的耐低温性能远远高于2种不同ACN的NBR混合橡胶的耐低温性能.

The nitrile butadiene rubbers(NBR)with different acrylonitrile(ACN)content and Mooney viscosity were studied,and the effects on glass transition temperature(Tg),low-temperature shrink temperature(TR)and compressive cold resistance coefficient(CCRC)were reported.The results show that:the Tg of NBR is linearly proportioned to ACN content,(coefficient of determination R2=0.9711),which is the dominated factor of Tg.On the other hand,the molecular sequence of Butadiene within NBR is affected by ACN content,resulting in the temperature range of glass transition(ΔTg)varying from 4.24℃ to 12.55℃ and the max loss tangent(tanδmax)of NBR rubber varying from 0.83 to 1.19,both of which displays linear relationship(R2=0.9628).In the TR experiment test,TR temperature with the same shrinking level for NBRs of different ACN content displays linearly relationship with Tg,with the linear relationship of initial temperature of TR(TRs)and Tg tested by DSC(Tg-DSC)(R2=0.9991).Meanwhile,the result of TR and CCRC keeps highly consistency.MV is the secondary factor of NBR rubbers,higher MV results in lower TR and high CCRC.In the compound of NBR mixtures,NBR compounds with different ACN show properties of partly compatible mixtures.Within the range of 25%~75%for NBR mixtures with at least two NBRs,NBR with low ACN is beneficial to the low-temperature properties,but the NBR with high ACN dominates the final properties,the Tg of which shows well consistency with TRs and R2=0.9964.As a result,for the compounds with the same ACN content,one NBR with the homogenous ACN distribution in the molecules shows better low-temperature properties than the mixtures of NBR with different ACN mole fraction

胡广利;张小虎;戢欢;邹凤朝;毕吉福

广东粤港澳大湾区黄埔材料研究院,航空轮胎大科学中心,广州 510700广东粤港澳大湾区黄埔材料研究院,航空轮胎大科学中心,广州 510700广东粤港澳大湾区黄埔材料研究院,航空轮胎大科学中心,广州 510700广东粤港澳大湾区黄埔材料研究院,航空轮胎大科学中心,广州 510700中国科学院长春应用化学研究所,高分子科学与技术全国重点实验室,长春 130022

化学化工

丁二烯-丙烯腈橡胶玻璃化转变温度低温性能

Nitrile butadiene rubberGlass-transition temperatureLow-temperature properties

《应用化学》 2026 (4)

572-583,12

新材料重大专项项目(No.2024ZD0603000)资助 Supported by the Advanced Materials-National Science and Technology Major Project(No.2024ZD0603000)

10.19894/j.issn.1000-0518.250255

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