结构陶瓷高温蠕变参数最优估计
ESTIMATION OF HIGH TEMPERATURE CREEP PARAMETERS FOR STRUCTURAL CERAMICS
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摘要: 本文在原有弯曲蠕变变形分析方法的基础上,发展了一种普遍可行的不对称弯曲梁蠕变应力分析数值方法。并应用最优化方法建立了一种新的稳态蠕变参数估计方法。Abstract: Power law high temperature creep parameters of structural ceramic materials are commonly deduced from load point displacement data obtained form bend tests on the assumption that tensile and compressive behaviours obey the same constitutive law.However,it is now well recognized that this premise may not always be valid because of microcracking and cavitation.Meanwhile,former methods of creep parameters estimation are not suitable,due to a demand for many CPU time.Therefore,a new optimal estimation method is proposed for the structural ceramic creep parameters.Its governing equations are derived from non coincidence of the neutral axis of a beam under bending with the cenctroids of the cross sections,and from the creep response in terms of both curvature rate and load point displacement rate as functions of the applied moment and creep parameters.Numerical solution of the governing equations is completed with golden section method.In order to obtain optimal estimation of the creep parament,a static optimal calculation program is used which turns the constrained minimum problem into an unconstrained minimum problem by penalty function.Then the problem is solved with variable matrix method that includes both DFP method and BFGS method.An example is given for a set of load point displacement data of sintered nitride silicon beam specimens crept at 900℃ and 1200℃ from three point bend tests.The results show that the conventional method overestimates or underestimates the creep rates in compression or tension,and the more accurate analysis presented here is needed.
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