Dynamic Characteristics Analysis for Seismic Vibrator

Li Qiang An; Fan Peng Kong; Yong Fang Wang

doi:10.4028/www.scientific.net/AMM.472.48

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 472Dynamic Characteristics Analysis for Seismic...

Dynamic Characteristics Analysis for Seismic Vibrator

Abstract:

Seismic vibrator is one of the most widely used equipments in exploration field. In recent years, with the development of exploration field, as well as the growing needs of high quality seismic data, the seismic vibrator's tonnage has increased a lot, which makes the stress of the vehicle frame very complicated in working state. And some local structure of the vehicle frame often appears crack phenomenon in working state. Therefore, the dynamic characteristic analysis is essential to the Seismic vibrator. In this paper, the finite element model of vehicle frame is established by ANSYS software. Through the modal analysis, the natural frequencies are obtained, and each vibration modes are analyzed. On the basis of the modal analysis, the modal neutral file of the vehicle frame is established. Using the data transfer function between ANSYS and ADAMS, the rigid-flexible coupling multi-body model is built for the dynamics simulation of the seismic vibrator. In this model, the stiffness and damping of air springs, hydraulic oil and soil are simulated by the spring-damper in the ADAMS software. The dynamic characteristics of vehicle frame under excited forces with different amplitude are obtained and analyzed. The stresses for some of the hot spots of the vehicle frame are extracted, which can be used to analyze the dynamic failure of the vehicle frame.

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Periodical:

Applied Mechanics and Materials (Volume 472)

Pages:

48-55

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.472.48

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Online since:

January 2014

Authors:

Li Qiang An, Fan Peng Kong, Yong Fang Wang

Keywords:

Adam, ANSYS, Dynamic Characteristic, Modal Analysis, Seismic Vibrator, Vehicle Frame

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References

[1] Gyu Ha Kim, Kyu Zong Cho, In Bum Chyun, Gi Seob Choi. Dynamic Stress Annlysis of Vehicle Frame Using a Nonlinear Finite Element Method. KSME, (2003).

DOI: 10.1007/bf02982324

Google Scholar

[2] Tieshan Zhang, Jianli Hu, Yun Tang. Dynamic Finite Element Analysis of Light Vehicle Frame. Journal of Nanjing University of Science and Technology, 2001, 12.

Google Scholar

[3] A. D Gupta. Evaluation of a Assembled Armored Vehicle Hull-turret Model Using Computational and Experimental modal analyses. Computers & Structures, July–August 1999, Pages 177–183.

DOI: 10.1016/s0045-7949(99)00024-3

Google Scholar

[4] Liu Hao, Chen Xianzhan, Fu Delian, Wang Yongfang, Zhao Zhixun, Wu Xingdong, Liu Weidong. CAE Technology and Its Application in Mechanical Equipment Design for Petroleum Exploration. EGP, 2010, 20(2): 92~95.

Google Scholar

[5] Wang Yongfang, Deng Dong, Li Caixia. Finite Element Analysis for A kind of Vehicle Frame Used for Petroleum Exploration. Conference on Structural and Multidisciplinary Optimization Theory and Applications 2009, 9.

Google Scholar

[6] Tao Zhifei. Discussion on Development of Vibroseis in Exchange of Century. EGP, 2000, 10(1): 1~6.

Google Scholar

[7] Ma Hongwei, Zhao Yonglin, Fu Delian. Calculation of Vibrator Reaction Mass Stroke. EGP, 2011, 21(2): 82~83.

Google Scholar

[8] Deng Dong, Li Caixia, Ma Hongwei. Vehicle Frame for Seismic Vibrator. CN 201107412Y, 2008, 8.

Google Scholar

[9] Fu Delian, Liu Zhengyu, Xia Pengling. Strength Calculation for vehicle Frame of Seismic Vibrator, EGP, 2000, 10(1): 7~9.

Google Scholar

[10] Xia Pengling, Li Guangjun. Application of Air Spring in Vibrator. EGP, 1998, 8(3): 25~ 27.

Google Scholar

[11] Fan Guodong, Wu Guangqiang, Zheng Hong, Ride comfort analysis based on rigid-flexible compling vehicle under random excitation. Journal of Jiamusi University(Natural Science Edition), (2011).

Google Scholar

[12] Sun Wei. Output Force Simulation of Vibroseis, EGP. 2012. 22(2): 79~82.

Google Scholar

[13] Zhouhong Wei, Thomas F. Phillips, Michael A. Hall. Fundamental Discussions on Seismic Vibrators. GE.

Google Scholar