LY5052环氧树脂固化态粘弹性泊松比

IF 1.8 Q3 ENGINEERING, MANUFACTURING
S. Saseendran, M. Wysocki, J. Varna
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引用次数: 21

摘要

摘要:利用考虑性能依赖于测试温度和固化状态参数的热力学一致线性粘弹性材料模型,表明对于流变简单的材料,固化和温度相关的减少时间和移位因子对于所有粘弹性柔度、松弛模量、泊松比以及存储模量和损耗模量都是相同的。这样做的一个必要条件是固化和温度参数只影响缩短时间。这意味着聚合物材料的泊松比(为简单起见,通常假定为常数)实际上与受温度和固化状态影响的时间关系不大。本文研究了商用LY5052环氧树脂在恒定轴向应变下的松弛试验中粘弹性泊松比的演变规律。研究了几种固化状态下的试样,泊松比(定义为侧向应变比和轴向应变比)随着时间的推移从0.32演变到0.44。此外,数据证实,固化状态相关的减少时间控制泊松比的发展导致相同的位移函数在DMTA测试中确定的存储模量。后一种测量还证实,总位移可以被认为是两个频域位移的总和,这意味着用于减少时间计算的函数可以写成两个函数的乘积:一个依赖于测试温度,另一个依赖于固化状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cure-state dependent viscoelastic Poisson’s ratio of LY5052 epoxy resin
Abstract It is shown, using thermodynamically consistent linear viscoelastic material model that accounts for properties dependence on test temperature and cure state parameters, that for rheologically simple materials the cure and temperature related reduced times and shift factors are the same for all viscoelastic compliances, relaxation modulus, and Poisson’s ratio as well as for the storage and loss modulus. A necessary condition for that is that the cure and temperature parameters are affecting the reduced time only. This means that the Poisson’s ratio of polymeric materials, which for simplicity is often assumed constant, in fact exhibits a small dependence on time which is affected by temperature and state of cure. In this work, the evolution of the viscoelastic Poisson’s ratio of the commercial LY5052 epoxy resin is studied in relaxation test subjecting the specimen to constant axial strain. Specimens at several cure states are studied and Poisson’s ratio, defined as the lateral and axial strain ratio, is shown to evolve from 0.32 to 0.44 over time. Moreover, the data confirm that the cure state-dependent reduced time controlling the Poisson’s ratio development leads to the same shift functions as those identified in DMTA tests for storage modulus. The latter measurements also confirmed that the total shift can be considered as a sum of two shifts in the frequency domain, which means that function for reduced time calculation can be written as a product of two functions: one dependent on the test temperature and another one dependent on the cure state.
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来源期刊
CiteScore
4.00
自引率
0.00%
发文量
11
审稿时长
16 weeks
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