岩土材料数值极限分析的发展与应用

Q2 Earth and Planetary Sciences 岩石力学与工程学报 Pub Date : 2017-02-23 DOI:10.1201/9781138027619-25
Zheng Yingren
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引用次数: 5

摘要

固体材料在承受一定载荷后从弹性到塑性再到破坏,这意味着屈服与破坏是不同的。讨论了岩土材料屈服准则体系,提出了应力场中点破坏和面破坏两种定义。并通过传统的极限分析方法确定了表面整体破坏的判据。同时,通过对传统极限分析方法求解特点的回顾和分析,指出了传统极限分析方法和数值分析方法存在的不足。在这两种方法结合的基础上,建立了一种新的数值极限分析方法,扩大了极限分析的应用范围。研究了传统极限分析方法和数值极限分析方法的意义和特点,以及可靠性。列举了数值极限分析的优缺点,说明了数值极限分析在边坡(滑坡)工程、基础工程和隧道工程中的广泛适用性。
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Development and application of numerical limit analysis for geotechnical materials
Solid material develops from elastic to plastic then to failure after undertaking some load,which means that yield is different from failure.The system of yield criteria for geomaterial is discussed and two definitions which are point failure and surface failure in stress field are put forward.And the criteria of surface whole failure is defined through traditional limit analysis method.Simultaneously,the deficiencies for traditional limit analysis and numerical analysis are pointed out by reviewing and analyzing the solution characteristics of traditional limit analysis method.Based on the combination of these two methods,a newly developed numerical limit analysis method is built,which has enlarged the application rage of limit analysis.The significances and features of traditional limit analysis method and numerical limit method are studied,as well as the reliabilities.The advantages and disadvantages of numerical limit analysis are listed;and the wide applicability of numerical limit analysis in the slope(landslide) engineering,foundation engineering and tunnel engineering is illustrated.
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来源期刊
岩石力学与工程学报
岩石力学与工程学报 Earth and Planetary Sciences-Geology
CiteScore
4.70
自引率
0.00%
发文量
13155
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