Miscellaneous Issues: Ancient Structures, Propellant of Solid Rocket, Parts of Rocket and Generator

  • Mao-Hong Yu
  • Jian-Chun Li
Part of the Advanced Topics in Science and Technology in China book series (ATSTC)

Abstract

The stability of ‘an ancient city wall and the foundation of an ancient pagoda, the strength of the parts of a rocket and generator, a plastic analysis of a thick-walled cylinder and 2D and 3D finite element simulations of a solid rocket motor grain are studied in this chapter. The unified strength theory is used in all these problems. Finally, several comments, reviews and research on the unified strength theory are presented from published papers and books.

Keywords

Plastic Zone Yield Criterion Tang Dynasty Strength Theory Intermediate Principal Stress 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Altenbach H and Kolupaev VA (2008) Remarks on Model of Mao-Hong Yu.. In: The Eighth International Conference on Fundamentals of Fracture (ICFF VIII), Zhang TY, Wang B and Feng XQ eds. pp 270–271.Google Scholar
  2. Chinese National Historical Relic Bureau (1992) Summary of Appraisal Meeting of Rescue and Restoration Project of Arrow Tower of North City Gate of Xi’an. in: Yu MH, Fang DP. Research of Ancient City Wall of Xi’an: Architecture Structure and Seismic Performance. Xi’an: Jiaotong University Press: Xi’an, pp 84–85 (in Chinese).Google Scholar
  3. Encyclopedia of China Water Conservancy (2nd edition 2006). China Water Conservancy and Hydropower Press: Beijing, Vol. II, pp 940.Google Scholar
  4. Fan SC and Qiang HF (2001) Normal high-velocity impaction concrete slabs-a simulation using the meshless SPH procedures. In: Computational Mechanics—New Frontiers for New Millennium, Valliappan S. and Khalili N. eds. Elsevier Science Ltd, pp 1457–1462.Google Scholar
  5. Gu J (1993) Elastic-plastic Analysis of the Foundation of the Big Goose Pagoda: Master’s Dissertation, Xi’an Jiaotong University (in Chinese).Google Scholar
  6. Gao DF (1995) Investigation of Earthquake and Wind Resistance and the Limiting Bearing Capacity of the Foundation of the Small Goose Pagoda. Master’s Dissertation. Xi’an: Xi’an Jiaotong University (in Chinese).Google Scholar
  7. Hu WF, Shen L, Yang JM and He WL (2010) Analysis and Improved design of structural dynamics for an advanced upper stage. Missiles and Space Vehicles, (3):1–7 (in Chinese).Google Scholar
  8. Kolupaev VA and Altenbach H (2009) Application of the Unified Strength Theory of Mao-Hong Yu to Plastics. In: Tagung Deformations und Bruchverhalten von Kunststoffen. Book of Abstracts ed. by W. Grellmann, Merseburg, pp 320–339 (in German).Google Scholar
  9. Kolupaev, VA and Altenbach H (2009) Anwendung der Unified Strength Theory (UST) von Mao-Hong Yu auf unverstärkte Kunststoffe. In: 12. Tagung Problemseminar „Deformation und Bruchverhalten von Kunststoffen“-Merseburg, S. 1–8.Google Scholar
  10. Kolupaev VA. Bolchoun A and Altenbach H (2009) Unified representation and evaluation of the strength hypotheses. In: Proceedings of 12th International Conference on Fracture. Ottawa: NRCanCANMET, pp 1–10.Google Scholar
  11. Kolupaev VA and Altenbach H (2010) Einige Überlegungen zur Unified Strength Theory von Mao-Hong Yu (Considerations on the Unified Strength Theory due to Mao-Hong Yu), Forschung im Ingenieurwesen (Forsch Ingenieurwes) Springer: Berlin (in German, English Abstract).Google Scholar
  12. Li JT, Lei YJ. Tang GJ, Mong SY and Yu DC (2008) Crack analysis for solid rocket motor grain. Missiles and Space Vehicles, (5):471–474 (in Chinese).Google Scholar
  13. Liao HJ, Ma ZY, Ning CM, Liu L and Sassa K (2010) Stability analysis of high loess slope under complex stress state. In: Recent developments of geotechnical engineering, Proceedings of the fourth Japan-China geotechnical symposium, Okinawa Japan, April 12–14.Google Scholar
  14. Ma ZY and Liao HJ (2010) Study on the constitutive model of twin shear unified elasto-plastic and strain hardening/softening based on FLAC3D. J. of Geotechnical Engineering (in Chinese).Google Scholar
  15. Qiang HF (1998) Numerical Analysis and Experimental Researches on the Structural Integrity of Solid Rocket Motor Grain. Doctoral Dissertation, Xi’an Jiaotong University, Xi’an (in Chinese).Google Scholar
  16. Qiang HF, Cao DZ and Zhang Y (2008) A new criterion based on the unified strength theory and its application in the study on the crack of solid rocket motor grain. Solid Rocket Technology, 31(4): 340–343 (in Chinese).Google Scholar
  17. Qian QH and Qi CZ (2008) Dynamic strength and dynamic fracture criteria of rock and rock mass. J. of Tongji University (Natural Science Edition), 36(12):1599–1605 (in Chinese, English abstract).Google Scholar
  18. Teodorescu PP (2006) Review of “Unified strength theory and its Applications. Springer, Berlin, 2004” Zentralblatt MATH 2006, Cited in Zbl. Reviews, 1059.74002 (02115115).Google Scholar
  19. Wang Y (1996) Structural Analysis of City Tower of East Gate of Xi’an. Master’s Dissertation, Xi’an Jiaotong University (in Chinese).Google Scholar
  20. Xing RC, Liu ZD and Zheng YR (1992) A failure criterion of loess. J. Hydraulic Engineering (1), 12–19 (in Chinese, English abstract).Google Scholar
  21. You JF, Chen RX and Li SL (2008) Experimental stress calculate method for the shell of solid rocket motor. Missiles and Space Vehicles, (4): 386–388 (in Chinese).Google Scholar
  22. Yu MH (1992) New System of Strength Theory. Xi’an Jiaotong University Press: Xi’an. (in Chinese).Google Scholar
  23. Yu MH and Meng XM (1992) Twin shear stress yield model and its application in soil engineering. Chin. J. Geotech. Eng., 14(3): 71–75 (in Chinese).Google Scholar
  24. Yu MH, He LN, Liu CY (1992) Generalized twin shear stress yield criterion and its generalization. Chinese Science Bulletin (Eng. Edn) 37(24): 2085–2089.Google Scholar
  25. Yu MH, Lu N, Yang SY, Gao DF (1994) Research on Column Foundation Structure and Bearing Capacity. In: The Collection of the 7th National Soil Engineering & Foundation Engineering Conference. China Architecture & Building Press: Beijing. pp 309–312.Google Scholar
  26. Yu MH (1994) Unified strength theory for geomaterials. Chin. J. Geotech. Eng., (2): 1–10 (in Chinese).Google Scholar
  27. Yu MH, Zeng WB, Lu N (1994) New theory of engineering structural analysis and its application. Engineering Mechanics, 11(1): 9–20 (in Chinese).Google Scholar
  28. Yu MH et al. (1997) Unified plane strain slip line theory. China Civil Engineering Journal, 30(2): 14–26 (in Chinese, English Abstract).Google Scholar
  29. Yu MH (1998) Twin Shear Theory and Its Application. The Science Press: Beijing. (in Chinese).Google Scholar
  30. Yu MH and Liu FY (2001) Researches on the stability of ancient city wall in Xi’an. In: Studies in Ancient Structures (Proceedings of the 2nd International Congress). Yildiz Technical University Publication: pp 365–370.Google Scholar
  31. Yu MH (2003) Studies on the History, Art and Scientific Characteristics of Ancient Structures. Invited Lecture at the Chinese Conference on Structural Engineering. Engineering Mechanics, 20 (Additional): 435–438(in Chinese).Google Scholar
  32. Yu MH (2004) Unified Strength Theory and its Applications. Springer: Berlin.CrossRefGoogle Scholar
  33. Yu MH, Oda Yoshiya, Fang DP (2008) Advances in Structural Mechanics of Ancient Architectures. Frontiers of Architecture and Civil Engineering in China-Selected Publications from Chinese Universities, Higher Education Press and Springer-Verlag, 2(1): 1–25.Google Scholar
  34. Yu MH, Wang Y, Yu T and Dietermam D (2009) Ancient City Wall, Bell Tower and Drum Tower: Second Edition (Color edition), 2011. History, Art and Science. Xi’an Jiaotong University Press: Xi’an (in Chinese).Google Scholar
  35. Zhang CQ, Zhou H and Feng XT (2008) Numerical format of elastoplastic constitutive model based on the unified strength theory in FLAC3D[J]. Rock and Soil Mechanics, 29(3): 596–601 (in Chinese).Google Scholar
  36. Zhang Y (2010) Experimental and Theoretical Research on Failure Criterion of HTPB composite Solid Propellant. Doctoral thesis of Xi’an High Technology Institute, Xi’an, China (in Chinese).Google Scholar
  37. Zhao Guang-Heng, Chief ed. (2006) Handbook of Engineering Mechanics, Rock Mechanics, Engineering Structures and Materials. China’s Water Conservancy Resources and Hydropower Press: Beijing, pp 20–21 (in Chinese).Google Scholar

Copyright information

© Zhejiang University Press, Hangzhou and Springer-Verlag Berlin Heidelberg 2012

Authors and Affiliations

  • Mao-Hong Yu
    • 1
  • Jian-Chun Li
    • 2
  1. 1.Department of Civil EngineeringXi’an Jiaotong UniversityXi’anChina
  2. 2.Swiss Federal Institute of TechnologySwitzerland

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