A new joining-device for manufacturing tubular butt joints with higher curing temperatures of film adhesives

IF 1.68 Q2 Dentistry
Martin Johannes Schollerer, Jens Kosmann, Thomas Löbel, Dirk Holzhüter, Christian Hühne
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引用次数: 4

Abstract

For detailed stress distribution analysis of bondlines, non-linear finite element analysis (FEA) is necessary. Depending on the load case in relation to shear and tension/compression adhesives show a different behaviour of the yield point [1], which is e.g. included in the Mahnken and Schlimmer [2] model. State of the art for biaxial tested adhesive material-characteristics is the use of bonded tubular butt joints under variable torsion and tension loads. Important for the quality of the determined material values is the alignment of both tubes. The quality is significantly improved, if both tubes are aligned perfectly coaxial. Also, the bondline has to be free of voids. In previous work [3], W?lper investigated the effects of coaxial and angle deviations for the results of material characteristics using FEA. A slight deviation has a strong negative impact to the results. Particularly for thin film-adhesives with elevated curing temperatures, the change of viscosity of the adhesive and the thermal expansion of the tubes must be considered. Previous investigations regarding the manufacturing of the specimens showed shortfalls in joining and curing them. Due to voids, geometric deviations or poorly-bonded tubes, no reliable results were achieved yet. Therefore, a new assembly-device is developed and tested. The results show well joined tubes without a significant angle deviation and with an average of 40?μm in coaxial deviation. The thickness of the bondline can be adjusted and is constant over the whole diameter. The new joining-device enables the testing of tubular butt joints to determine biaxial material values of thin higher-temperature-cured film-adhesives. The device is patented to DE 102017114538.9.

Abstract Image

一种新型连接装置,用于制造膜胶粘剂固化温度较高的管状对接接头
为了详细分析结合线的应力分布,需要进行非线性有限元分析。根据与剪切和拉伸/压缩相关的载荷情况,粘合剂的屈服点表现出不同的行为[1],例如包括在Mahnken和Schlimmer[2]模型中。双轴测试胶粘剂材料特性的最新技术是在可变扭转和拉伸载荷下使用胶粘剂管对接接头。对于确定的材料值的质量很重要的是两个管的对准。如果两个管完全同轴排列,则质量显着提高。同时,键线必须没有空隙。在前人的研究[3]中,W?利用有限元分析方法研究了同轴度和角度偏差对材料特性结果的影响。稍有偏差就会对结果产生强烈的负面影响。特别是对于固化温度较高的薄膜胶粘剂,必须考虑胶粘剂粘度的变化和管材的热膨胀。先前关于试样制造的调查显示,在连接和固化方面存在不足。由于空洞、几何偏差或粘接不良的管,尚未获得可靠的结果。为此,研制并试验了一种新型装配装置。结果表明,连接良好的管没有明显的角度偏差,平均为40?μm同轴偏差。结合线的厚度可以调整,并且在整个直径上是恒定的。该新型连接装置能够对管状对接接头进行测试,以确定高温固化薄膜胶粘剂的双轴材料值。本设备专利号为DE 102017114538.9。
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来源期刊
Applied Adhesion Science
Applied Adhesion Science Dentistry-Dentistry (miscellaneous)
自引率
0.00%
发文量
0
审稿时长
13 weeks
期刊介绍: Applied Adhesion Science focuses on practical applications of adhesives, with special emphasis in fields such as oil industry, aerospace and biomedicine. Topics related to the phenomena of adhesion and the application of adhesive materials are welcome, especially in biomedical areas such as adhesive dentistry. Both theoretical and experimental works are considered for publication. Applied Adhesion Science is a peer-reviewed open access journal published under the SpringerOpen brand. The journal''s open access policy offers a fast publication workflow whilst maintaining rigorous peer review process.
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