Modal analysis of bus body structure using finite element analysis technique

被引：0

作者：

Deulgaonkar V.R. ^{[1
]}

Kulkarni M.S. ^{[1
]}

Khedkar S.S. ^{[1
]}

Kharosekar S.U. ^{[1
]}

Sadavarte V.U. ^{[1
]}

机构：

[1] Dept. of Mech. Engg., MM’s College of Engg., Karvenagar, Pune

来源：

International Journal of Vehicle Structures and Systems | 2020年 / 12卷 / 03期

关键词：

Dynamic analysis; Finite Element Analysis (FEA); Modal analysis;

D O I：

10.4273/ijvss.12.3.18

中图分类号：

学科分类号：

摘要：

Present work deals with evaluation of dynamic characteristics of a bus body structure. The bus under consideration is a sleeper non-air conditioned vehicle for a passenger capacity of thirty and it is designed adhering to automotive industry standards. Modal analysis of the proposed bus design is carried using Ansys Workbench. With the aid of modal analysis ten mode shapes of the bus are postulated, corresponding frequencies and deflections are estimated. Mesh generator is used to mesh the complex bus model. The deflection and frequency magnitudes of proposed bus model is found with the help of Finite Element Analysis (FEA) technique and they are in good agreement with experimental results available in literature. Engine being the prime source of excitation, it’s frequency is compared with the frequencies determined by FEA of the proposed bus body and it is observed that the frequencies of the bus body for ten different modes are far less than the minimum resonant engine frequency. © 2020. MechAero Foundation for Technical Research & Education Excellence.

引用

页码：317 / 321

页数：4

共 22 条

[1]

Deulgaonkar V.R., Gradient load evaluation of chassis frame mounted specialised structure designed for heavy off-road vehicles, Int. J. Vehicle Structures and Systems, 8, 2, pp. 86-90, (2016)

[2]

Deulgaonkar V.R., Vibration measurement and spectral analysis of chassis frame mounted structure for off-road wheeled heavy vehicles, Int. J. Vehicle Structures and Systems, 8, 1, pp. 23-27, (2016)

[3]

Deulgaonkar V.R., Matani A.G., Kallurkar S.P., Design evaluation of chassis mounted platform for off-road wheeled heavy vehicles, Int. J. Vehicle Structures and Systems, 7, 3, pp. 100-106, (2015)

[4]

Deulgaonkar V.R., Matani A.G., Development and validation of chassis mounted platform design for heavy vehicles, Int. J. Vehicle Structures and Systems, 6, 3, pp. 51-57, (2014)

[5]

Deulgaonkar V.R., Matani A.G., Strain characteristics in a unique platform integrated with truck chassis under intense load, Int. J. Mech. and Production Engg., Research and Develop, 3, 3, pp. 83-88, (2013)

[6]

Deulgaonkar V.R., Matani A.G., Experimental investigation of inimitable platform on heavy vehicle chassis, Int. J. Automobile Engg. Research & Develop, 3, 3, pp. 7-12, (2013)

[7]

Deulgaonkar V.R., Matani A.G., Kallurkar S.P., Advanced mathematical analysis of chassis integrated platform designed for unconventional loading by using simple technique for static load, Int. J. Engg. and Innovative Tech, 1, 3, pp. 26-28, (2012)

[8]

Deulgaonkar V.R., Kallurkar S.P., Matani A.G., Mathematical analysis of section properties of a platform integrated with vehicle chassis, Int. J. Scientific and Research Publications, 2, 1, pp. 87-90, (2012)

[9]

Deulgaonkar V.R., Kallurkar S.P., Matani A.G., Chavan D.K., Noise and vibrations mechanics: Review and diagnostics, Int. J. Applied Engg. Research, 7, 1, pp. 71-78, (2012)

[10]

Deulgaonkar V.R., Kallurkar S.P., Matani A.G., Review and diagnostics of noise and vibrations in automobiles, Int. J. Modern Engg. Research, 1, 2, pp. 242-246, (2011)

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