Atmospheric pressure helium + oxygen plasma treatment of ultrahigh modulus polyethylene fibers

Y. Qiu; Y. J. Hwang; C. Zhang; B. L. Bures; M. McCord

首页> 外文期刊>Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology >Atmospheric pressure helium + oxygen plasma treatment of ultrahigh modulus polyethylene fibers

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Atmospheric pressure helium + oxygen plasma treatment of ultrahigh modulus polyethylene fibers

机译：大气压氦+氧等离子体处理超高模量聚乙烯纤维

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摘要

Ultrahigh modulus polyethylene fibers were treated with atmospheric pressure helium + oxygen plasma in a capacitively coupled device at a frequency of 7.5 kHz. The fibers were treated for 0, 0.5, 1, 1.5, and 2 min. The surfaces of the fibers treated with He + O_2 plasma were etched and micro-cracks were formed. XPS analysis showed a 65-213% increase in oxygen content on the surfaces of all plasma-treated fibers, except for the 1.5 min group. An increase in the concentration of C-O and the appearance of C=O bonds on the surfaces of plasma-treated fibers were observed. In the micro-bond test, He + O_2 plasma-treated groups had a 65 - 104% increase in interfacial shear strength over that of the control. The tensile strength of the fibers was either unchanged or decreased by 10-13% by the plasma treatments.

机译：将超高模量聚乙烯纤维用大气压氦+氧等离子体在电容耦合设备中以7.5 kHz的频率处理。将纤维处理0、0.5、1、1.5和2分钟。蚀刻了用He + O_2等离子体处理过的纤维表面，并形成了微裂纹。 XPS分析显示，除1.5分钟的组外，所有经过等离子体处理的纤维表面的氧含量增加了65-213％。观察到在等离子体处理的纤维表面上C-O的浓度增加和C = O键的出现。在微结合试验中，He + O_2等离子体处理的组的界面剪切强度比对照组增加了65-104％。通过等离子处理，纤维的拉伸强度没有改变或降低了10-13％。

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《Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology 》 |2002年第4期| 共9页
作者
Y. Qiu; Y. J. Hwang; C. Zhang; B. L. Bures; M. McCord;
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正文语种 eng
中图分类胶粘剂工业 ; 粘接、胶接 ;
关键词
adhesion; surface treatments; interface/interphase; fibers;

机译：附着力;表面处理;界面/相间;纤维;

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1. Atmospheric pressure helium + oxygen plasma treatment of ultrahigh modulus polyethylene fibers [J] . Y. Qiu, Y. J. Hwang, C. Zhang, Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology . 2002 ,第4期

机译：大气压氦+氧等离子体处理超高模量聚乙烯纤维
2. ATMOSPHERIC PRESSUER HELIUM PLASMA TREATMENT OF ULTRAHIGH MODULUS POLYETHYLENE FIBRES [J] . Qiu Y., Anantharamaiah, N. Xie S. Advanced Composites Letters . 2001 ,第3期

机译：超高模量聚乙烯纤维的常压氦等离子体处理
3. The effect of atmopheric pressure helium plasma treatment on the surface and mechanical properties of ultrahigh-modulus polymethylene fibers [J] . Y. Qiu, C. Zhang, Y. J. Hwang, Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology . 2002 ,第1期

机译：大气压氦等离子体处理对超高模量聚乙烯纤维表面和力学性能的影响
4. THE AGING OF ATMOSPHERIC PLASMA TREATED ULTRAHIGH-MODULUS POLYETHYLENE FIBERS [C] . Christina Jensen, Chuyang Zhang, Y. QIU Fifth China-Japan-US joint conference on composite materials . 2002

机译：大气等离子体处理的超模量聚乙烯纤维的老化
5. Argon-oxygen atmospheric pressure plasma treatment on carbon fiber reinforced polymer for improved bonding. [D] . Chartosias, Marios. 2015

机译：在碳纤维增强的聚合物上进行氩氧常压等离子体处理，以改善粘合性。
6. Effect of Modification with Helium Atmospheric-Pressure Plasma and Deep-Ultraviolet Light on Adhesive Shear Strength of Fiber-Reinforced Poly(ether-ether-ketone) Polymer [O] . Seigo Okawa, Norimasa Taka, Yujin Aoyagi 2020

机译：氦常压等离子体和深紫外光改性对纤维增强聚醚醚酮聚合物粘合剪切强度的影响
7. Atmospheric Pressure Helium Plasma Treatment of Ultrahigh Modulus Polyethylene Fibres [O] . Y. Qiu, N. Anantharamaiah, S. Xie, 2001

机译：大气压氦等离子浆处理超高模量聚乙烯纤维
8. Drawing Behavior of Ultrahigh Molecular Weight Polyethylene (UHMWPE) fibers in Supercritical CO2 [R] . Lesser, A. J. 2002

机译：超高分子量聚乙烯（UHmWpE）纤维在超临界CO2中的拉伸行为

Atmospheric pressure helium + oxygen plasma treatment of ultrahigh modulus polyethylene fibers

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