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Properties and appropriate conditions of stress reduction factor and thermal shock resistance parameters for ceramics
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作者 李卫国 成天宝 +1 位作者 张如炳 方岱宁 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2012年第11期1351-1360,共10页
Through introducing the analytical problem of the plate with convection into the solution of the transient heat conduction thermal stress field model of the elastic plate, the stress reduction factor is presented expl... Through introducing the analytical problem of the plate with convection into the solution of the transient heat conduction thermal stress field model of the elastic plate, the stress reduction factor is presented explicitly in its dimensionless form. A new stress reduction factor is introduced for the purpose of comparison. The proper- ties and appropriate conditions of the stress reduction factor, the first and second ther- mal shock resistance (TSR) parameters for the high and low Biot numbers, respectively, and the approximation formulas for the intermediate Blot number-interval are discussed. To investigate the TSR of ceramics more accurately, it is recommended to combine the heat transfer theory with the theory of thermoelasticity or fracture mechanics or use a numerical method. The critical rupture temperature difference and the critical rup- ture dimensionless time can be used to characterize the TSR of ceramics intuitively and legibly. 展开更多
关键词 stress reduction factor thermal shock resistance (TSR) parameter ceram-ics Biot number Fourier number
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Experimental and Numerical Investigation of Stress Condition in Unstable Soil 被引量:1
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作者 Marx Ferdinand Ahlinhan Emmanuel Kokou Wouya +2 位作者 Yvette Kiki Tankpinou Marius Bocco Koube Codjo Edmond Adjovi 《Open Journal of Civil Engineering》 2016年第3期370-380,共11页
In unstable soils, a special erosion process termed suffusion can occur under the effect of relatively low hydraulic gradient. The critical hydraulic gradient of an unstable soil is smaller than in stable soils, which... In unstable soils, a special erosion process termed suffusion can occur under the effect of relatively low hydraulic gradient. The critical hydraulic gradient of an unstable soil is smaller than in stable soils, which is described by a reduction factor α. According to a theory of Skempton and Brogan (1994) [1], this reduction factor is related to the stress conditions in the soil. In an unstable soil, the average stresses acting in the fine portion are believed to be smaller than the average stresses in the coarse portion. It is assumed that the stress ratio and the reduction factor for the hydraulic gradient are almost equal. In order to prove this theory, laboratory tests and discrete element modelings are carried out. Models of stable and unstable soils are established, and the stresses inside the sample are analysed. It is found that indeed in unstable soils the coarse grains are subject to larger stresses. The stress ratios in stable soils are almost unity, whereas in unstable soils smaller stress ratios, which are dependent on the soil composition and on the relative density of the soil, are obtained. A comparison between the results of erosion tests and numerical modeling shows that the stress ratios and the reduction factors are strongly related, as assumed by Skempton and Brogan (1994) [1]. 展开更多
关键词 Unstable Soil Suffusion Hydraulic Gradient stress reduction factor Laboratory Tests Discrete Element Modeling
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