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Research Article
Mechanical Machines and Earthquake Effects of Foundation
C. Sivasanthosh1
S. Karthik2
K.Anandh3
I. Michael Raj4
K.Porulselvi5
1,2,3,4, 5Assistant Professor, Department of Civil Engineering, Christ The King Engineering College, Coimbatore, India.
Published Online: November-December 2022
Pages: 16-24
Cite this article
No DOIReferences
1. Barkan, D.D. (1962). “Dynamics of Bases and Foundations”, McGraw-Hill Book Company, New York, U.S.A.
2. Bhatia, K.G. (1981). “Soil Structure Interaction Effects on the Response of 210 MW TG Frame Foundation”, Proceedings of the
International Conference on Recent Advances in Geotechnical Earthquake Engineering and Soil Dynamics, St. Louis, U.S.A., Vol. 1, pp. 319–
322.
3. Bhatia, K.G. (1984). “Machine Foundation in Power Plant and Other Industries—Case Studies”, Proceedings of the International
Conference on Case Histories in Geotechnical Engineering, St. Louis, U.S.A., Vol. 2, pp. 775–779.
4. Bhatia, K.G. (2006). “Machine Foundation Design—A State of the Art”, Journal of Structural Engineering, SERC, Vol. 33, No. 1, pp. 69–
80.
5. Bhatia, K.G. (2008). “Foundations for Industrial Machines—A Handbook for Practising Engineers”, D-CAD Publishers, New Delhi.
6. Bhatia, K.G. and Sinha, K.N. (1977). “Effect of Soil-Structure Interaction on the Behaviour of Machine Foundations”, Proceedings of the
International Symposium on Soil-Structure Interaction, Roorkee, pp. 399–404.
7. BIS (1979). “IS: 2974 (Part IV)-1979—Indian Standard Code of Practice for Design and Construction of Machine Foundations, Part IV:
Foundations for Rotary Type Machines of Low Frequency (First Revision)”, Bureau of Indian Standards, New Delhi.
8. BIS (1980). “IS: 2974 (Part II)-1980—Indian Standard Code of Practice for Design and Construction of Machine Foundations, Part II:
Foundations for Impact Type Machines (Hammer Foundations) (First Revision)”, Bureau of Indian Standards, New Delhi.
9. BIS (1982). “IS: 2974 (Part I)-1982—Indian Standard Code of Practice for Design and Construction of Machine Foundations, Part I:
Foundation for Reciprocating Type Machines (Second Revision)”, Bureau of Indian Standards, New Delhi.
10. BIS (1987). “IS: 2974 (Part 5)-1987—Indian Standard Code of Practice for Design and Construction of Machine Foundations, Part 5:
Foundations for Impact Machines other than Hammer (Forging and Stamping Press, Pig Breaker, Drop Crusher and Jolter) (First Revision)”,
Bureau of Indian Standards, New Delhi.
11. BIS (1992). “IS 2974 (Part 3): 1992—Indian Standard Design and Construction of Machine Foundations—Code of Practice, Part 3:
Foundations for Rotary Type Machines (Medium and High Frequency) (Second Revision)”, Bureau of Indian Standards, New Delhi.
12. BIS (2005). “IS 1893 (Part 4): 2005—Indian Standard Criteria for Earthquake Resistant Design of Structures, Part 4: Industrial Structures
Including Stack-like Structures”, Bureau of Indian Standards,
New Delhi.
13. Major, A. (1980). “Dynamics in Civil Engineering—Analysis and Design, Vols. I–IV”, AkadémiaiKiadó, Budapest, Hungary.
14. Prakash, S. (1981). “Soil Dynamics”, McGraw-Hill Book Company, New York, U.S.A.
15. Prakash, S. and Puri, V.K. (1988). “Foundations for Machines: Analysis and Design”, John Wiley & Sons, New York, U.S.A.
16. Ramdasa, K., Singh, A.K. and Bhatia, K.G. (1982). “Dynamic Analysis of Frame Foundation Using FEM”, Proceedings of the 7th
Symposium on Earthquake Engineering, Roorkee, Vol. 1, pp. 411–416.
17. Richart Jr., F.E., Hall Jr., J.R. and Woods, R.D. (1970). “Vibrations of Soils and Foundations”, Prentice-Hall, Englewood Cliffs, U.S.A.
18. Singh, A.K. and Bhatia, K.G. (1989). “Base Isolation of Equipment and System”, Bulletin of Indian Society of Earthquake Technology, Vol.
26, No. 4, pp. 39–48.
19. Srinivasulu, P. and Vaidyanathan, V. (1980). “Handbook of Machine Foundations”, Tata McGraw- Hill Publishing Company, New Delhi.
20. Swami, S. (1999). “Soil Dynamics and Machine Foundation”, Galgotia Publications Private Limited, New Delhi.
2. Bhatia, K.G. (1981). “Soil Structure Interaction Effects on the Response of 210 MW TG Frame Foundation”, Proceedings of the
International Conference on Recent Advances in Geotechnical Earthquake Engineering and Soil Dynamics, St. Louis, U.S.A., Vol. 1, pp. 319–
322.
3. Bhatia, K.G. (1984). “Machine Foundation in Power Plant and Other Industries—Case Studies”, Proceedings of the International
Conference on Case Histories in Geotechnical Engineering, St. Louis, U.S.A., Vol. 2, pp. 775–779.
4. Bhatia, K.G. (2006). “Machine Foundation Design—A State of the Art”, Journal of Structural Engineering, SERC, Vol. 33, No. 1, pp. 69–
80.
5. Bhatia, K.G. (2008). “Foundations for Industrial Machines—A Handbook for Practising Engineers”, D-CAD Publishers, New Delhi.
6. Bhatia, K.G. and Sinha, K.N. (1977). “Effect of Soil-Structure Interaction on the Behaviour of Machine Foundations”, Proceedings of the
International Symposium on Soil-Structure Interaction, Roorkee, pp. 399–404.
7. BIS (1979). “IS: 2974 (Part IV)-1979—Indian Standard Code of Practice for Design and Construction of Machine Foundations, Part IV:
Foundations for Rotary Type Machines of Low Frequency (First Revision)”, Bureau of Indian Standards, New Delhi.
8. BIS (1980). “IS: 2974 (Part II)-1980—Indian Standard Code of Practice for Design and Construction of Machine Foundations, Part II:
Foundations for Impact Type Machines (Hammer Foundations) (First Revision)”, Bureau of Indian Standards, New Delhi.
9. BIS (1982). “IS: 2974 (Part I)-1982—Indian Standard Code of Practice for Design and Construction of Machine Foundations, Part I:
Foundation for Reciprocating Type Machines (Second Revision)”, Bureau of Indian Standards, New Delhi.
10. BIS (1987). “IS: 2974 (Part 5)-1987—Indian Standard Code of Practice for Design and Construction of Machine Foundations, Part 5:
Foundations for Impact Machines other than Hammer (Forging and Stamping Press, Pig Breaker, Drop Crusher and Jolter) (First Revision)”,
Bureau of Indian Standards, New Delhi.
11. BIS (1992). “IS 2974 (Part 3): 1992—Indian Standard Design and Construction of Machine Foundations—Code of Practice, Part 3:
Foundations for Rotary Type Machines (Medium and High Frequency) (Second Revision)”, Bureau of Indian Standards, New Delhi.
12. BIS (2005). “IS 1893 (Part 4): 2005—Indian Standard Criteria for Earthquake Resistant Design of Structures, Part 4: Industrial Structures
Including Stack-like Structures”, Bureau of Indian Standards,
New Delhi.
13. Major, A. (1980). “Dynamics in Civil Engineering—Analysis and Design, Vols. I–IV”, AkadémiaiKiadó, Budapest, Hungary.
14. Prakash, S. (1981). “Soil Dynamics”, McGraw-Hill Book Company, New York, U.S.A.
15. Prakash, S. and Puri, V.K. (1988). “Foundations for Machines: Analysis and Design”, John Wiley & Sons, New York, U.S.A.
16. Ramdasa, K., Singh, A.K. and Bhatia, K.G. (1982). “Dynamic Analysis of Frame Foundation Using FEM”, Proceedings of the 7th
Symposium on Earthquake Engineering, Roorkee, Vol. 1, pp. 411–416.
17. Richart Jr., F.E., Hall Jr., J.R. and Woods, R.D. (1970). “Vibrations of Soils and Foundations”, Prentice-Hall, Englewood Cliffs, U.S.A.
18. Singh, A.K. and Bhatia, K.G. (1989). “Base Isolation of Equipment and System”, Bulletin of Indian Society of Earthquake Technology, Vol.
26, No. 4, pp. 39–48.
19. Srinivasulu, P. and Vaidyanathan, V. (1980). “Handbook of Machine Foundations”, Tata McGraw- Hill Publishing Company, New Delhi.
20. Swami, S. (1999). “Soil Dynamics and Machine Foundation”, Galgotia Publications Private Limited, New Delhi.
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