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Abstrakty
The flexible material is always absorbing some energy and reflects it. This concept was adopted from complaint mechanism principle and it was developed with the help of topology optimization technique. An innovative idea is used these principles to create a new design to absorb the vibration in the machine shop, through an innovative design model and analysis ware discussed. This paper gives a different material selection for design of compliant mechanism and also outline about the complaint mechanisms principle and shows how it is useful in mechanical field. Recently this technique is developed with the help of advanced design and also combination of some other technique. A study has been made in this for different materials.
Czasopismo
Rocznik
Tom
Strony
121--134
Opis fizyczny
Bibliogr. 18 poz.
Twórcy
autor
- Mechanical Engineering Department, K.Ramakrishnan College of Engineering, Samayapuram, Trichy, Tamilnadu - 621 112, India
autor
- Mechanical Engineering Departments, Arulmurugan College of Engineering, Karvazhi Road, Thennilai, Karur, Tamilnadu - 639206, India
Bibliografia
- [1] Bendsoe, M. P.: Optimal shape design as a material distribution problem, Structural and multidisciplinary optimization, 1, 193-202, 1989.
- [2] Burn, T. E. and Tortorelli, D. A.: Topology optimization of non-linear elastic structures and compliant mechanisms, Compute Methods Appl. Mech. Eng., 190, 3443-3459, 2001.
- [3] Ding, Y.: Shape optimization of structures: A Literature Survey, Computers and Structures, V. 24, 985-1004, 1986.
- [4] Grossard, M., Rotinat-Libersa, C. and Chaillet, N.: Flexible building blocks method for the optimal design of compliant mechanisms using piezoelectric material, 12th IFToMM World Congress, Besancon (France), 8-21, 2007.
- [5] Haftka, R. T. and Gandhi, R. V.: Structural Shape Optimization - a survey, Computer Methods in Applied Mechanics and Engineering, 57, 91-106, 1986.
- [6] Howell, L.: Compliant mechanisms, Wiley, New York, 2001.
- [7] Howell, L.L. and Midha, A.: Parametric Deection Approximations for End-Loaded, Large-Deection Beams in Compliant Mechanisms, Journal of Mechanical Design, Trans. ASME, Vol. 117, pp. 156-165, 1995.
- [8] Howell, L.L. and Midha, A.: A Loop-Closure Theory for the Analysis and Synthesis of Compliant Mechanisms, Journal of Mechanical Design, Trans. ASME. Vol. 118, pp. 121-125, 1996.
- [9] Kikuchi, N. and Bendsoe, M. P.: Generating optimal topologies in structural design using a homogenization method, Computer Methods in Applied Mechanics and Engineering, 71, 197-224, 1988.
- [10] Krishnan, G., Kim, C., and Kota, S.: Building block method: a bottom-up modular synthesis methodology for distributed compliant mechanisms, Mech. Sci., 3, 15-23, 2012.
- [11] Li, Y., Chen, B. and Kikuchi, N.: Topology optimization of mechanism with thermal actuation, Proceeding of the fourth International Conference on ECO Materials, Gifu, Japan, 1998.
- [12] Lusk, C.P. and Howell, L.L.: Components, Building Blocks, and Demonstrations of Spherical Mechanisms in Microelectromechanical Systems, Journal of Mechanical Design, Vol. 130, 2008.
- [13] Pedersen, C. B., Buhl, T. and Sigmund, O.: Topology synthesis of large-displacement compliant mechanisms, Int. Journal Number. Methods Eng., 50, 2683-2705, 2001.
- [14] Preumont, A.: Vibration Control of Active Structures, 2 Ed, Kluwer Academic Publishers, Norwell, p. 113, 2002.
- [15] Rasmussen, N. O., Wittwer, J. W. Todd, R. H., Howell, L. L., and Magleby, S. P.: A 3D Pseudo-Rigid-Body Model for Large Spatial Deections of Rectangular Cantilever Beams, Proceedings of IDETC/CIE 2006 as part of the 2006 ASME Mechanisms and Robotics Conference, Philadelphia, PA, DETC2006-99465, 2006.
- [16] Rao, S. S.: Mechanical vibrations and shocks, 2009.
- [17] Nastac, S. and Leopa, A.: Structural Optimization of Vibration Isolation Devices for High Performances, International Journal of Systems Applications, Engineering and Development, Issue 2, Volume 2, 2008.
- [18] Tanakron Tantanawat, Zhe Li and Sridhar Kota: Application of compliant mechanisms to active vibration isolation systems, proceedings of DETC 2004 -7439, 2004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3bbd7d23-50f5-45ca-be7c-b2d69294c711