【摘要】 现行混凝土结构设计规范中钢筋混凝土柱的受剪承载力公式为半经验半理论计算公式,由于试验数据的有限性和钢筋混凝土材料离散性较大的本质特性,规范建议公式缺乏明确的理论模型。该文以贝叶斯动态信息更新思路,根据主观经验信息选定现行规范中钢筋混凝土柱受剪承载力计算公式作为贝叶斯先验模型,通过已完成试验研究的柱受剪承载力数据,应用贝叶斯方法综合这两类信息进行推断,建立钢筋混凝土柱在反复荷载作用下受剪承载力的概率模型,对未知参数进行估计,修正先验模型并建立后验模型,以达到对先验模型的更新。通过先验模型计算值、后验模型计算值及试验值相互间的对比分析可知:贝叶斯方法继承了先验信息的完备性和大量试验数据的准确性,能够更准确地预测钢筋混凝土柱的受剪承载力。更多还原

【Abstract】 The concrete code for the column shear-capacity design of a structure is gained through simi-empirical and semi theoretical.However,due to the limited test data and its own characteristics of a concrete structure,standardize formula cannot cover all the columns of shear calculations.Thusly,the thought of dynamic information updates based on Bayesian approach was introduced.A Bayesian prior model is proposed based on the epistemic information from the empirical formula.Two types of the information,the epistemic information and the experimental information,are synthesized by the Bayesian approach and inferred to update the prior model.And the probabilistic models for shear capacities of reinforced concrete column are constructed and unknown model parameters are estimated.Then modify the models and construct the new ones.Though the values of the prior model,posterior model and experiments are calculated and compared,the advantages of updating Bayesian dynamic information can be seen.The approach inherits the completeness of the prior model and the accuracy of number of experimental data information.Thus it can more accurately predict and verify the shear strength of concrete columns.更多还原