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拉伸中应力硬化的本质:剪切与拉伸的区别 |
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| 资料类型: |
PDF文件
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| 关键词: |
strain hardening 应力硬化 线性高分子 支化高分子 拉伸 |
| 资料大小: |
1647k |
| 所属学科: |
高分子物理 |
| 来源: |
来源网络 |
| 简介: |
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讨论拉伸中应力硬化出现的根本原因。
Thisworkstudiestheoriginofthesocalled"strainhardening"observedwhencomparingthetransientstressresponseofentangledmeltstouniaxialextensionwiththattosimpleshear.Strainhardeningoccurswhenthetransientextensionalviscositymeasuredfromastartupuniaxialextensionoffiniteratedeviatesupwardfromthezero-ratetransientviscosity.OurtheoreticalanalysisshowsthatpolymermeltswouldalwaysexhibitstrainhardeningatsufficienthighHenckyratesbecausetheentanglementnetworkcanbeeffectivelystrengthenedduringextensionandcanonlybeweakenedduringshearforlinearchains.Thekinematicdifferencebetweensimpleshearanduniaxialextensionhastwoeffects:(a)Theforceresultingfromthestartupdeformationismeasuredfromanincreasinglyshrinkingareainuniaxialextensioninsteadofaconstantareaasinsimpleshear;and(b)thetendencyoftheentanglementnetworktoyield,i.e.,toundergochaindisentanglementispartiallysuppressedduringstartupextensionathighHenckyrates.Inshort,thephenomenonofstrainhardeningreflectstherealitythatentangledmeltsarenotfluidsbuttemporarysolidsandthattheconventionaldescriptionoftheiruniaxialextensionintermsoftheCauchystresscontainsageometriccondensationfactor. |
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stude
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2014-04-26 10:55:56 |
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