1) elastic-plastic failure process
弹塑性破裂过程
1.
The properties of anisotropic characteristics of rock-like materials and the elastic-plastic failure process of rock materials are studied by the numerical simulation analysis of the program REPFPA.
阐述了岩土类材料的非匀质性特性,以及对岩土类材料弹塑性破裂过程进行数值模拟的分析程序REPFPA,通过8个试样的数值模拟"试验",深入地研究了随机数发生器种子值对岩石试样弹塑性破裂过程的影响。
2) elastic-plastic failure
弹塑性破裂
1.
Comparative study on elastic-plastic failure process of rock specimen by means of numerical simulation;
岩石试样弹塑性破裂过程数值模拟比较研究
3) fracturing process
破裂过程
1.
An experiment on fracturing process of cemented soil is conducted to investigate the behaviors of cemented soil under various environmental conditions.
采用试验的方法研究了水泥土在各种环境因素(水、不同化学溶液、不同浓度以及不同pH值等)影响下的力学特性,并对一定水泥掺量的水泥土试件的侵蚀特征及无侧限抗压强度试验进行了实时观测和记录,得到了水泥土试件的侵蚀特征照片和荷载位移曲线及相对应的破裂过程照片。
2.
Fracturing process of rock caused by loading is an important problem in study of failure mechanism of rock.
岩石破裂过程研究一直是岩石力学专家关注的重要问题。
4) failure process
破裂过程
1.
A numerical study on failure process of transversely isotropic rock subjected to uniaxial compression;
单轴压缩下横观各向同性岩石破裂过程的数值模拟
2.
Based on the seepage theory of gas flow in coal seams and elastic theory of coal deformation and combining them with the relationship equations between gas permeability and damage, a mathematical model of coupled solid-gas flow in coal and rock formations in the failure process of coal and rock was established.
根据瓦斯渗流与煤体变形的基本理论,并引入煤体变形过程中细观单元损伤与透气性演化的耦合作用方程,建立了含瓦斯煤岩破裂过程固气耦合作用模型·应用该模型模拟研究了煤矿开采诱发的煤与瓦斯突出过程、突出前后煤体中瓦斯压力的变化规律以及采动影响下瓦斯抽放过程中煤层透气性的演化和抽放孔周围瓦斯压力的变化规律,这对于进一步深入理解煤与瓦斯突出机理、瓦斯抽放作用机制等并采取相应的预防和控制措施等具有重要的理论和实践意义
5) Rupture process
破裂过程
1.
Rupture process of the Chi-Chi (Taiwan) earthquake in 1999;
1999年台湾集集地震震源破裂过程
2.
We analyzed and researched the data,including the sequence characters,source parameters,focal mechanism,rupture process,crucst deform,fault dynamics,plat movement,cause of the earthquake as well as precursory phenomena etc.
对这些资料进行了系统的分析和研究 ,内容涉及集集大地震的序列特征、震源参数、震源机制、破裂过程、地壳形变、断层动力学、板块运动、地震成因以及前兆现象等。
3.
By analyzing the characteristics of seismic rupture process and considering the three hypothetical conditions of similarity satisfied by earthquake,i e geometrical, stress environment and dynamic similarities of fault planes, the authous have studied the scaling analysis of similarity between earthquakes with various magnitudes and set up the scaling relation between sou.
本文根据Heaskel二维矩形地震破裂模式,导出了以ω立方的波谱衰减,在分析地震破裂过程特征、考虑三个主要的相似性假定基础上,即假定地震满足断层面几何相似、应力环境相似和动力学相似条件,研究了大小地震相似性问题的标度分析,建立了地震破裂和源参数之间的标定律关系。
6) elastic-plastic analysis concerning second-order effects
二阶弹塑性全过程分析
补充资料:弹—塑性变分原理
弹—塑性变分原理
elastic-plastic variational principle
tan一suxing bionfen yuanll弹一塑性变分原理(elastie一plastic variation-al Principle)适于弹一塑性材料的能量泛函的极值理论。包括最小势能原理和最小余能原理。塑性加工力学中常用最小势能原理。变形力学问题的能量解法和有限元解法都基于最小势能原理。最小势能原理有全量理论最小势能原理和增量理论最小势能原理。 全量理论最小势能原理在极值路径(应变比能取极值的路径)下运动许可的位移场u‘中,真实的位移和应变使所对应的总势能取最小,即总势能泛涵巾取最小值,其表达式为”一0,’一万〔A(一,一关一〕dV一好多!一‘“ (l)式中“:为位移;户:为外力已知面上的单位表面力;关为体力;A(气)为应变比能。 A(勒)随材料的模型而异。对应变硬化材料(图a), E严_‘_‘_ A(乓r)一二丁二一气助+{刃(r)dr(2) 6(1一2刃~一“‘J一、-一、- 0式中E,,分别为弹性模量和泊松比;艺一硫瓜,r一掩不万,,,f,一,一音。魔。,,一,一,一音。*。!,;。f,为克罗内克(L.Kroneeker)记号,i=夕时a,一l,i笋少时民,一。,把式(2)代入式(1)便得到卡恰诺夫(几·M·Ka、aHoe)原理x的表达式。i厂:八 I’—几 I’一 ab 乞一乏(r)关系图 a一应变硬化材料;占~理想塑性材料 对于理想塑性材料(图b), 艺~ZGr(r
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