Background data for modulus mapping high-performance polyethylene fiber morphologies

Kenneth E. Strawhecker; Emil J. Sandoz-Rosado; Taylor A. Stockdale; Eric D. Laird

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Background data for modulus mapping high-performance polyethylene fiber morphologies

机译：模量映射高性能聚乙烯纤维形态的背景数据

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The data included here provides a basis for understanding “Interior morphology of high-performance polyethylene fibers revealed by modulus mapping” (K.E. Strawhecker, E.J. Sandoz-Rosado, T.A. Stockdale, E.D. Laird, 2016) , in specific: the multi-frequency (AMFM) atomic force microscopy technique and its application to ultra-high-molecular-weight Polyethylene (UHMWPE) fibers. Furthermore, the data suggests why the Hertzian contact mechanics model can be used within the framework of AMFM theory, simple harmonic oscillator theory, and contact mechanics. The framework is first laid out followed by data showing cantilever dynamics, force-distance spectra in AC mode, and force-distance in contact mode using Polystyrene reference and UHMWPE. Finally topography and frequency shift (stiffness) maps are presented to show the cases where elastic versus plastic deformation may have occurred.

机译：此处包含的数据为理解“通过模量映射揭示的高性能聚乙烯纤维的内部形态”（KE Strawhecker，EJ Sandoz-Rosado，TA Stockdale，ED Laird，2016）提供了基础，具体而言：多频（AMFM）原子力显微镜技术及其在超高分子量聚乙烯（UHMWPE）纤维中的应用。此外，数据表明了为什么可以在AMFM理论，简单谐振子理论和接触力学的框架内使用赫兹接触力学模型。首先布局框架，然后显示数据，这些数据显示悬臂动力学，交流模式下的力-距离谱以及使用聚苯乙烯参考和UHMWPE的接触模式下的力-距离。最后给出了地形图和频移（刚度）图，以显示可能发生弹性变形与塑性变形的情况。

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《Data in Brief》 |2017年第1期|共8页
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Kenneth E. Strawhecker; Emil J. Sandoz-Rosado; Taylor A. Stockdale; Eric D. Laird;
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1. Interior morphology of high-performance polyethylene fibers revealed by modulus mapping [J] . Strawhecker Kenneth E., Sandoz-Rosado Emil J., Stockdale Taylor A., Polymer: The International Journal for the Science and Technology of Polymers . 2016,第Null期

机译：模量图显示高性能聚乙烯纤维的内部形态
2. Impact Response and Failure Mechanisms of Ultrahigh Modulus Polyethylene Fiber Composites and Polyethylene Fiber-Carbon Fiber Hybrid Composites [J] . X.J. Xian Key Engineering Materials . 1998,第Part期

机译：超高模量聚乙烯纤维和聚乙烯纤维-碳纤维杂化复合材料的冲击响应和破坏机理
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机译：高性能聚乙烯纤维“ Al dente”：使用植物油改善超高分子量聚乙烯的凝胶纺丝
4. EFFECT OF FIBER CONCENTRATION AND PROCESS PARAMETERS ON FIBER ORIENTATION IN, AND MODULUS OF GLASS FIBER REINFORCED POLYETHYLENE COMPOSITE FIBER [C] . A. Khorsand, J. Raghavan International Conference on Composite Materials . 2013

机译：纤维浓度和工艺参数对纤维取向的影响，玻璃纤维增强聚乙烯复合纤维的模量
5. Ultimate mechanical properties of polyethylene and cellulose fibers: Breaking strength, breaking strain, and modulus. [D] . Wang, Jie. 1996

机译：聚乙烯和纤维素纤维的极限机械性能：断裂强度，断裂应变和模量。
6. Background data for modulus mapping high-performance polyethylene fiber morphologies [O] . Kenneth E. Strawhecker, Emil J. Sandoz-Rosado, Taylor A. Stockdale, 2017

机译：模量映射高性能聚乙烯纤维形态的背景数据
7. Background data for modulus mapping high-performance polyethylene fiber morphologies [O] . Kenneth E. Strawhecker, Emil J. Sandoz-Rosado, Taylor A. Stockdale, 2017

机译：模数映射高性能聚乙烯纤维形态的背景数据
8. (15)N CP/MAS NMR of Aramids: A Tool for Characterization of the Morphology of High Modulus Fibers for Composites [R] . Mathias, L. J., Powell, D. G. 1988

机译：（15）芳族聚酰胺的N Cp / mas NmR：表征复合材料高模量纤维形态的工具

Background data for modulus mapping high-performance polyethylene fiber morphologies

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