Effect of Joint Types Between Metallic Material and Elastomer Material Used for Vibration Isolation on Isolation Performance and Dynamic Properties
Çağrı Koç1*, Tuncay Karaçay2
1TÜBİTAK Savunma Sanayii Araştırma Ve Geliştirme Enstitüsü , Ankara, Turkey
2Gazi University, Ankara, Turkey
* Corresponding author: cagri.koc@tubitak.edu.tr
Presented at the 2nd International Symposium on Innovative Approaches in Scientific Studies (ISAS2018-Winter), Samsun, Turkey, Nov 30, 2018
SETSCI Conference Proceedings, 2018, 3, Page (s): 911-913 , https://doi.org/
Published Date: 31 December 2018 | 1237 9
Abstract
Elastomer materials can be jointed using various connection types with metallic parts. Removable connections (with
screws, nuts, etc.), adhesive and vulcanization methods are some of them. In this work, it is investigated that how joint
between one type of elastomer called silicone and aluminum using adhesive and vulcanization process affect dynamic
properties and vibration isolation performance and results are compared. Modal tests are performed for investigation and
comparation
Keywords - Vibration isolation, elastomer material behavior, modal test, natural frequency, vibration transmissibility
References
[1] D.G. Lin and I.M. Eliseeva, “Control of adhesion strength in metalelastomer joints during elastomer Crosslinking”, Wear vol.192 pp. 46-48, 1996
[2] I. Lubowiecka, M.Rodrı´guez, E.Rodrı´guez, D.Martı´nez, “Experimentation, material modelling and simulation of bonded joints with a flexible adhesive”, International Journal of Adhesion & Adhesives vol.37 pp.56-64, 2012
[3] Xinpan Li, Ran Yu, Tingting Zhao, Ying Zhang, Xin Yang, Xiaojuan Zhao, Wei Huang, “A self-healing polysiloxane elastomer based on siloxane equilibration synthesized through amino-ene Michael addition reaction”, European Polymer Journal vol.108, pp.399-405, 2018
[4] “Vibration, Shock and Motion Contol Product”,LORD Corporation
[5] Murat Köksal “Elastomerik Malzemelerin Dinamik Karekteristiklerinin Teorik ve Deneysel İncelenmesi”, M. Eng. Thesis, Gazi University,Turkey, October 2012
[6] David I. G. Jones, “Handbook of Viscoelastic Vibration Damping”, D/Tech Systems, Chandler, Arizona, USA, 2001