Xiaoya Bian scite author profile

Due to many uncertainties in nonprobabilistic reliability assessment of bridges, the limit state function is generally unknown. The traditional nonprobabilistic response surface method is a lengthy and oscillating iteration process and leads to difficultly solving the nonprobabilistic reliability index. This article proposes a nonprobabilistic response surface limit method based on the interval model. The intention of this method is to solve the upper and lower limits of the nonprobabilistic reliability index and to narrow the range of the nonprobabilistic reliability index. If the range of the reliability index reduces to an acceptable accuracy, the solution will be considered convergent, and the nonprobabilistic reliability index will be obtained. The case study indicates that using the proposed method can avoid oscillating iteration process, make iteration process stable and convergent, reduce iteration steps significantly, and improve computational efficiency and precision significantly compared with the traditional nonprobabilistic response surface method. Finally, the nonprobabilistic reliability evaluation process of bridge will be built through evaluating the reliability of one PC continuous rigid frame bridge with three spans using the proposed method, which appears to be more simple and reliable when lack of samples and parameters in the bridge nonprobabilistic reliability evaluation is present.

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Structural robust optimization design based on convex model

Chen

Fan

Bian

2017

Results in Physics

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Target reliability index for serviceability limit state of single piles

Bian

Zheng

et al. 2015

J. Cent. South Univ.

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Experimental investigation on effect of curing stress on the strength of cement-stabilized clay at high water content

2016

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Xiaoya Bian

Theoretical analysis of non-probabilistic reliability based on interval model

Reliability Evaluation of Bridges Based on Nonprobabilistic Response Surface Limit Method

Structural robust optimization design based on convex model

Target reliability index for serviceability limit state of single piles

Experimental investigation on effect of curing stress on the strength of cement-stabilized clay at high water content

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