共查询到20条相似文献,搜索用时 375 毫秒
1.
在理想弹塑性材料中,高速扩展裂纹尖端的应力分量都只是θ的函数.利用这个条件以及定常运动方程、应力应变关系与屈服条件,我们得到反平面应变和平面应变两者的一般解.将这两个一般解分别用于扩展Ⅲ型裂纹和Ⅰ型裂纹,我们就求出了Ⅲ型裂纹和Ⅰ型裂纹的高速扩展尖端的理想弹塑性场和理想塑性场. 相似文献
2.
动态裂纹尖端的单参数粘塑性场 总被引:4,自引:0,他引:4
本文给出一种弹性-粘塑性本构模型代替了通常的弹塑性模型,假定在趋向裂纹尖端时粘性系数趋向于零,即η=η0r,对动态裂纹的尖端场进行了渐近分析.文中给出了适当的位移模式并得到了单参数解.对不同的Mach数和粘性系数作丁数值计算。基于这种渐近解提出一种断裂准则并讨论了裂纹扩展的稳定性. 相似文献
3.
本文给出了平面应变条件下裂纹尖端附近的弹塑性的应力、应变和位移的解析近似解,其特例即Irwin的弹性主项解,从而使弹塑性断裂力学分析所需的一切场量都可以从文中得到. 相似文献
4.
采用弹牯塑性力学模型,对弹粘塑性材料中Ⅲ型动态扩展裂纹尖端场进行了渐近分析.在线性硬化条件下,裂纹尖端的应力和应变场具有相同的幂奇异性,奇异性指数由材料的粘性系数唯一确定.数值计算结果表明,运动参量裂纹扩展速度本身对裂尖场的分区构造影响很小.材料的硬化系数主导裂尖场的分区构造,但二次塑性区对裂尖场的影响较小.材料的粘性主导裂纹尖端应力和应变场的强度.同时对裂尖场的构造有一定影响.当裂纹扩展速度为0时,动态解退化为相应的准静态解;当硬化系数为0时,线性硬化解还原为相应的理想塑性解. 相似文献
5.
提出了一种新的弹性-粘塑性模型用于分析Ⅰ型动态扩展裂纹尖端的应力应变场.给出了适当的位移模式,推导了渐近方程并且给出了数值解.分析和计算表明:对于低粘性情况,裂纹尖端场具有对数奇异性;对于高粘性情况,渐近方程无解.分析比较表明该结果具有高玉臣提出的单参数解的所有优点,并且消除了粘性区随裂纹扩展而移动的不足. 相似文献
6.
7.
高速扩展平面应力裂纹尖端的理想塑性场 总被引:2,自引:2,他引:0
在裂纹尖端的理想塑性应力分量都只是θ的函数的条件下,利用Mises屈服条件、定常运动方程及弹塑性本构方程,我们导出了高速扩展平面应力裂纹尖端的理想塑性场的一般解析表达式.将这些一般解析表达式用于具体裂纹,我们就得到高速扩展平面应力Ⅰ型和Ⅱ型裂纹的尖端的理想塑性场. 相似文献
8.
在理想弹塑性材料中,高速扩展裂纹尖端的应力分量都只是θ的函数.利用这个条件以及定常运动方程,塑性应力应变关系和含有泊松比的Mises屈服条件,本文导出了高速扩展平面应变裂纹尖端的理想塑性场的一般表达式.将这些含有泊松比的一般表达式用于Ⅰ型裂纹,我们就得到高速扩展平面应变Ⅰ型裂纹尖端的理想塑性场.这个理想塑性场含有泊松比,所以,我们能知道泊松比对高速扩展平面应变Ⅰ型裂纹尖端的理想塑性场的影响. 相似文献
9.
采用线场分析方法对理想弹塑性材料偏心裂纹板在裂纹面受两对反平面点力的情形进行弹塑性分析,分析不受小范围屈服条件的限制,求得了裂纹线附近应力场和位移场的弹塑性解析解、裂纹线上的塑性区长度随外荷载的变化规律及有限宽板具有偏心裂纹的承载力. 相似文献
10.
11.
12.
本文从三维的塑性流动理论出发,导出了关于理想塑性固体平面应变问题的基本方程。利用这些方程,分析了不可压缩理想塑性固体的逐步扩展裂纹顶端的弹塑性场。得到了关于应力和速度的一阶渐近场。分析了弹性卸载区的演变过程和中心扇形区的发展过程。预示了出现二次塑性区的可能性。最后给出了关于应力场二阶渐近分析。 相似文献
13.
James G. Malone Robert Plunkett Philip G. Hodge Jr. 《Finite Elements in Analysis and Design》1986,2(4):389-407
In this paper, the finite element method is applied to a center-cracked plate subject to opening mode tensile loading. A complete elastic-plastic plane-stress solution for strain hardening materials obeying a Von Mises yield condition and Prandtl-Reuss stress-strain relations is obtained using only constant strain elements. An accurate representation of the stress-strain field even at distances very close to the crack-tip, is achieved by the use of a mesh arrangement in which the size of the elements decreases in a geometric series as the crack tip is approached. The numerical solution is compared with and used to discuss the range of validity of the well-known HRR (Hutchinson-Rice-Rosengren) crack tip solution valid for small scale yielding. The influence of different amounts of hardening and the effect of changes in the mesh arrangements are also considered. Features of the finite element algorithm which reduce the total computing time are discussed. The finite element program is executed on a CRAY-1 computer and the effect of vectorization on computational speed is discussed for this problem. 相似文献
14.
Crack initiation and stable crack growth under monotonic loading in steels has been studied using an elastic-plastic finite element analysis. The fracture criterion used for crack initiation and stable crack growth was the critical strain energy density. In addition the shift core method for the analysis of crack extension was used. In the shift core modelling method, crack advance is simulated by moving the coordinates of the core region which surrounds the crack tip, to obtain the stiffness reduction. Simultaneously the core itself geometrically undergoes a simple rigid-body motion or translation during the crack extension. The analytically calculated and experimentally measured load for crack initiation and the subsequent stable crack growth agreed well. 相似文献
15.
Volker Schippl Claus-Peter Fritzen Sven Brück Hans-Jürgen Christ Martina Schwarz Stefan Weihe 《PAMM》2016,16(1):169-170
A two-dimensional model for stage I short crack propagation on multiple slip planes under the influence of hydrogen is presented. It considers elastic-plastic material behaviour by allowing sliding on the active slip planes in the corresponding slip directions. A crack propagation law based on the crack tip sliding displacement is used to simulate crack growth. The activation of slip bands and the sliding on these active slip bands will be influenced by the local hydrogen concentration. The model is solved numerically using the boundary element method. (© 2016 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
16.
17.
In this paper a finite element model for the analysis of brittle materials in the post cracking regime is presented. The model allows the representation of failure zones several times smaller than the structure itself using relatively coarse finite element meshes. The formulation is based on the partition of unity method. Discontinuous shape functions are used to enrich the continuous approximation of the displacement field where a crack has opened [2]. The magnitude of the displacement jump is determined by extra degrees of freedom at existing nodes. The crack path is completely independent of the structure of the mesh and is continuous across element boundaries. To model inelastic deformations around the crack tip a cohesive crack model is used. A representative numerical example illustrates the performance of the proposed model. 相似文献
18.
In this paper, the three-dimensional automatic adaptive mesh refinement is presented in modeling the crack propagation based on the modified superconvergent patch recovery technique. The technique is developed for the mixed mode fracture analysis of different fracture specimens. The stress intensity factors are calculated at the crack tip region and the crack propagation is determined by applying a proper crack growth criterion. An automatic adaptive mesh refinement is employed on the basis of modified superconvergent patch recovery (MSPR) technique to simulate the crack growth by applying the asymptotic crack tip solution and using the collapsed quarter-point singular tetrahedral elements at the crack tip region. A-posteriori error estimator is used based on the Zienkiewicz–Zhu method to estimate the error of fracture parameters and predict the crack path pattern. Finally, the efficiency and accuracy of proposed computational algorithm is demonstrated by several numerical examples. 相似文献
19.
The solution of an infinite plane containing a macro crack and a cluster of micro cracks under uniaxial tensile load was presented based on Muskhelishvili’s complex function method and the stepwise recursive method. The stress field and stress intensity factor K were obtained. Combined with the damage mechanics, damage parameter D of the macro-crack tip and the micro-crack tip under uniaxial tension was redefined, and the influence of different damage zone forms on the damage of the crack tip was analyzed. The results show that, both the chain-distribution and the reverse-chain-distribution micro cracks have an amplifying effect on the macro crack growth, and the damage parameter increases with the decrease of the inclination angle of the micro crack and the reduction of the distance between the macro crack and the micro cracks. For a relatively small inclination angle of the micro crack, the damage parameters of the macro crack and the micro crack heightens, and the damage parameter of the macro crack increases with the micro-crack length. For evenly distributed micro cracks in the continuous damage zone, the micro cracks have an amplifying effect on the macro-crack growth, and the damage parameter of the macro crack increases with the micro-crack number. © 2022 Editorial Office of Applied Mathematics and Mechanics. All rights reserved. 相似文献
20.