THE MAXIMUM LOAD SIZE EFFECT FOR UNCRACKED BRITTLE STRUCTURES

Smith E.

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THE MAXIMUM LOAD SIZE EFFECT FOR UNCRACKED BRITTLE STRUCTURES

机译：无裂纹脆性结构的最大载荷尺寸效应

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The paper proceeds from the basis that the dominant source of the maximum load size effect for uncracked brittle structures is deterministic, and is related to the formation of a damage (fracture process) zone at a free surface. By modelling this damage behaviour in terms of the cohesive zone description, and by associating the maximum load with the attainment of an elastically calculated effective tensile failure stress, the paper projects the view that the effective stress is critically dependent on the applied loading induced stress gradient beneath the surface of a structure. The effective tensile failure stress increases with the steepness of the stress gradient, and we therefore have a ready explanation as to why the effective tensile failure stress for an uncracked bend beam increses as the beam depth decreases. [References: 8]

机译：本文从以下观点出发：未破裂的脆性结构最大载荷尺寸效应的主要来源是确定性的，并且与在自由表面形成损伤（断裂过程）区域有关。通过根据内聚区描述对这种破坏行为进行建模，并将最大载荷与通过弹性计算得出的有效拉伸破坏应力相关联，本文得出以下观点：有效应力主要取决于施加的载荷引起的应力梯度在结构表面之下。有效拉伸破坏应力随应力梯度的陡峭程度而增加，因此，我们有一个很好的解释，说明了为什么未破裂的弯曲梁的有效拉伸破坏应力会随着梁深度的减小而增加。 [参考：8]

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《Journal of Materials Science》 |1997年第15期|共4页
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Smith E.;
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中图分类工程材料学;
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1. THE MAXIMUM LOAD SIZE EFFECT FOR UNCRACKED BRITTLE STRUCTURES [J] . Smith E. Journal of Materials Science . 1997,第15期

机译：无裂纹脆性结构的最大载荷尺寸效应
2. Identification of the effective grain size responsible for the ductile to brittle transition temperature for steel with an ultrafine grain size ferrite/cementite microstructure with a bimodal ferrite grain size distribution; [J] . Ming-Chun Zhao, Tian-Yi Zeng, Jing-Li Li, Materials Science and Engineering . 2011,第12期

机译：确定具有双峰铁素体晶粒尺寸分布的超细晶粒铁素体/渗碳体组织的钢的韧性至脆性转变温度的有效晶粒度；
3. Practical method for computing the maximum loading point using a load flow with step size optimisation [J] . Tavares B., Bedrinana M., Castro C.A. Generation, Transmission & Distribution, IET . 2011,第12期

机译：使用潮流优化步长优化的最大载荷点计算实用方法
4. Cracking in multi-axial loading fields for brittle and quasi brittle structures using recent (MN-r_p-σ_θ) [C] . R. El-Sheikhy, M.NAKA International Structural Engineering and Construction Conference(ISEC-03); 20050920-23; Shunan(JP) . 2005

机译：使用最近的（MN-r_p-σ_θ）在脆性和准脆性结构的多轴载荷场中开裂
5. Application of particle size fractionation methods to the study of trace metal speciation in urban runoff: Implications for total maximum daily load analyses. [D] . Morrison, Matthew Alan. 2002

机译：粒度分级法在城市径流中痕量金属形态研究中的应用：对总最大日负荷分析的启示。
6. Evidence for a causal relationship between the structure size and load of calcium pyrophosphate dihydrate crystals and attacks of pseudogout. [O] . A Swan, B Heywood, B Chapman, 1995

机译：焦磷酸钙二水合物晶体的结构大小和负荷与假痛风发作之间因果关系的证据。
7. Measurement of Bundle Sizes of Martensite Structures and Facet Sizes of Brittle Fracture Surfaces by Applying a Technique of Texture Analysis [O] . Osamu FURUKIMI, Makoto IMANAKA, Yo ITO, 1985

机译：通过应用纹理分析技术测量脆性断裂表面的脆性裂缝结构的束尺寸
8. Maximum Surface Concentration of SO2From a Moderate-Size Steam-Electric Power Plant as a Function of Power Plant Load. [R] . irwin,john s. cope,alan m. 1979

机译：作为电厂负荷函数的中等规模蒸汽电厂sO2最大表面浓度。

THE MAXIMUM LOAD SIZE EFFECT FOR UNCRACKED BRITTLE STRUCTURES

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