断裂力学有效性、极限和断裂约束的物理证据

D. Lambert, H. Ernst
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摘要

在当前的设计工作中,断裂行为的考虑应该是一个至关重要的问题。当结构中存在不连续时,许多材料表现出截然不同的行为。这些可能是材料固有的,也可能是由于不良的制造、处理和/或设计实践造成的。在设计模型中包含断裂行为是断裂力学的主题。最后,对疲劳和断裂的了解对于避免灾难变得非常重要。本文有两个主要目的:表征断裂的物理性质,并强调需要将中心扁平断裂与表面剪切断裂区分开来。为此,本文的内容组织如下:(1)断裂力学的有效性限制:该信息最初是为了提取类似的断裂数据而开发的,在这里将用于帮助描述体约束效应和确定表面效应的存在;(2)平面试样在荷载作用下的裂缝面位移分析:包括实际的裂缝、分离和拉伸剖面;(3)考虑到存在两个具有不同破坏机制的不同断裂带,考虑三维断裂;为此,讨论了G和J作为地表以下深度的函数,以及若干约束因素作为深度的函数。
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Fracture mechanics validity limits and physical evidence of constraint in fracture
The consideration of fracture behavior should be a matter of vital concern in current design efforts. Many materials exhibit grossly different behavior when discontinuities are present in the structure. These may be inherent in the material or may stem from poor manufacturing, handling, and/or design practices. Inclusion of fracture behavior in the design models is the subject of fracture mechanics. Ultimately, a knowledge of fatigue and fracture becomes very important in avoiding disaster. This paper is written with two primary purposes: to characterize the physical nature of fracture, and to dramatize the need to characterize the central flat fracture differently from the surface, shear fracture. To this end, the contents of the paper are organized as follows: (1) validity limits of fracture mechanics: this information was originally developed for the purpose of extracting similar fracture data and will be used here to help characterize bulk constraint effects and to establish the existence of the surface effect; (2) analysis of crack face displacements of planar specimens subjected to loads: this includes actual crack-, separation-, and stretch-profiles; and (3) consideration of three-dimensional fracture in light of the existence of two distinct fracture zones that exhibit different failure mechanisms; for this purpose, G and J as a functitin of depth below surface are discussed, as well as several constraint factors as a function of depth.
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