PREDICTING THE FORCE NEEDED TO CREATE A COMPRESSION SEAL IN AN ULTRA-THIN ELASTOVISCOPLASTIC MEMBRANE

机译：预测在超薄弹性囊泡膜中产生压缩密封所需的力

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In this paper, a finite element model is developed, and experimentally validated, for predicting the force required to produce a compression seal between a polycarbonate sealing boss and a 25 μm thick elastoviscoplastic hemodialysis membrane. This work leverages previous efforts to determine the conditions for hermetic sealing in a microchannel hemodialyser fabricated using hot-embossed polycarbonate microchannel laminae containing sealing boss features. Methods are developed for mechanically characterizing the thin elastoviscoplastic hemodialysis membrane. Experimental data for assessing the depth of penetration into the membrane as a function of force show an R~2 value of 0.85 showing good repeatability. The average percent error was found to be -8.0% with a range between -21.9% and 4.4% error in the strain region of interest.

机译：在本文中，开发了有限元模型，并通过实验验证，以预测在聚碳酸酯密封凸台和25μm厚的弹性粒塑料血液透析膜之间产生产生压缩密封所需的力。这项工作利用以前的努力确定使用含有密封凸台特征的热压型聚碳酸微通道薄片制造的微通道血液透析器中的气密密封条件。开发了用于机械表征薄弹性粒子塑料血液透析膜的方法。作为力的函数评估膜的渗透深度的实验数据显示R〜2值为0.85，显示出良好的重复性。发现平均误差为-8.0％，其感兴趣的应变区域的误差为-8.0％。

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《ASME international manufacturing science and engineering conference》|2016年|xii v. p. xiii-xv|共6页
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Patrick S. McNeff; Brian K. Paul;
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PREDICTING THE FORCE NEEDED TO CREATE A COMPRESSION SEAL IN AN ULTRA-THIN ELASTOVISCOPLASTIC MEMBRANE

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