Ultrasonic characterization of the complex Young's modulus of polymer parts fabricated with microstereolithography

Morris Clinton B.; Cormack John M.; Hamilton Mark F.; Haberman Michael R.; Seepersad Carolyn C.

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Ultrasonic characterization of the complex Young's modulus of polymer parts fabricated with microstereolithography

机译：超声波表征Microstere上铁刻制造的聚合物零件的复合杨氏模量

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Purpose Microstereolithography is capable of producing millimeter-scale polymer parts having micron-scale features. Material properties of the cured polymers can vary depending on build parameters such as exposure. Current techniques for determining the material properties of these polymers are limited to static measurements via micro/nanoindentation, leaving the dynamic response undetermined. The purpose of this paper is to demonstrate a method to measure the dynamic response of additively manufactured parts to infer the dynamic modulus of the material in the ultrasonic range.

机译：目的微溶解度能够产生具有微米级特征的毫米级聚合物部件。固化聚合物的材料特性可以根据诸如暴露的构建参数而变化。用于确定这些聚合物的材料特性的电流技术限于通过微/纳米狭窄的静态测量，使动态响应未确定。本文的目的是说明一种测量加容量制造部件的动态响应的方法，以推断超声波范围内材料的动态模量。

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来源
《Rapid prototyping journal》 |2018年第7期|共10页
作者
Morris Clinton B.; Cormack John M.; Hamilton Mark F.; Haberman Michael R.; Seepersad Carolyn C.;
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作者单位

Univ Texas Austin Dept Mech Engn Austin TX 78712 USA;

Univ Texas Austin Dept Mech Engn Austin TX 78712 USA;

Univ Texas Austin Dept Mech Engn Austin TX 78712 USA;

Univ Texas Austin Dept Mech Engn Austin TX 78712 USA;

Univ Texas Austin Dept Mech Engn Austin TX 78712 USA;

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原文格式 PDF
正文语种 eng
中图分类机械、仪表工业;
关键词
Complex modulus; Dynamic modulus; Microstereolithography; Ultrasonic material characterization;

机译：复杂模量;动态模量;微球刻;超声波材料表征;

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1. Ultrasonic characterization of the complex Young's modulus of polymer parts fabricated with microstereolithography [J] . Morris Clinton B., Cormack John M., Hamilton Mark F., Rapid prototyping journal . 2018,第7期

机译：超声波表征Microstere上铁刻制造的聚合物零件的复合杨氏模量
2. Characterization of an electroactive polymer simultaneously driven by an electrical field and a mechanical excitation: An easy means of measuring the dielectric constant, the Young modulus and the electrostrictive coefficients [J] . Guyomar D., Cottinet P.-J., Lebrun L., Physics Letters, A . 2011,第16期

机译：电场和机械激励同时驱动的电活性聚合物的表征：测量介电常数，杨氏模量和电致伸缩系数的简便方法
3. Characterization of dose-dependent Young's modulus for a radiation-sensitive polymer gel. [J] . Crescenti RA, Bamber JC, Bush NL Physics in medicine and biology. . 2009,第4期

机译：辐射敏感性聚合物凝胶的剂量依赖性杨氏模量的表征。
4. Characterization of Fabricated Three Dimensional Scaffolds of Bioceramic-Polymer Composite via Microstereolithography Technique [C] . Marina Talib, James A Covington, Aminat Bolarinwa iNuSTEC 2013 . 2014

机译：微溶解技术的表征杀生物蛋白聚合物复合物的制造三维支架
5. Effect of Poisson's Ratio on Young's Modulus Characterization Using Ultrasonic Technique by Modeling [D] . Onyetube, Michael Abuchi 2018

机译：泊松比对超声技术建模杨氏模量的影响
6. Flow characterization of electroconvective micromixer with a nanoporous polymer membrane in-situ fabricated using a laser polymerization technique [O] . Sangbeom Hwang, Simon Song 2015

机译：电对流微混合器的流动特性及其利用激光聚合技术原位制备的纳米多孔聚合物膜
7. Effect of fiber orientation on ultimate tensile strength and young’s modulus of fabricated glass fiber reinforced polymer plates [O] . A. Syamsir, A. H. Amat, F. Usman, 2021

机译：纤维取向对制造玻璃纤维增强聚合物板的极限拉伸强度和杨氏模量的影响
8. Comparison of Ultrasonic and Mechanical Test Values of the Principal Young's Modulus of Unidirectional Metal Matrix Composites. [R] . Foltz, J. V., Bertram, A. L. 1991

机译：单向金属基复合材料主要杨氏模量的超声和力学测试值比较。

Ultrasonic characterization of the complex Young's modulus of polymer parts fabricated with microstereolithography

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