menu_book Explore the article's raw data

An Efficient Safety Life Analysis Method Under Required Failure Possibility Constraint by SK-FS-Based Dichotomy

Abstract

Safety life analysis can provide guidance for safety service and maintenance plan of structure. To efficiently analyze the structural safety life under required failure possibility in the presence of fuzzy uncertainty, this paper proposes a sequential Kriging (SK)-based fuzzy simulation (FS) combined with dichotomy (SK-FS-D) method. Firstly, based on monotonic relationship of time-dependent failure possibility (TDFP) and service time, the SK-FS-D uses dichotomy method to search the safety life. Secondly, the SK-FS-D proposes a strategy of sequentially updating Kriging surrogate model in the candidate sample pool (CSP) of fuzzy simulation (FS) to estimate the TDFP corresponding to each possible life searched by dichotomy, and the next dichotomy interval is determined by TDFP estimated by the convergent Kriging model. This strategy can improve the efficiency of SK-FS-D by avoiding training Kriging model at the life not visited by dichotomy and extend the engineering applicability of SK-FS-D by inheriting the advantages of FS method. Moreover, the CSP reduction strategy is further adopted to improve the computational efficiency of TDFP according to some correct information provided by the convergent Kriging model and the property of fuzzy design point. Finally, one numerical example and three engineering examples are introduced to verify the superior performance of the proposed SK-FS-D over the existing methods.

article Article

date_range 2024

language English

link Link of the paper

format_quote

Jiang Xia

Lu Zhenzhou

Hu Yingshi

Sorry! There is no raw data available for this article.

Loading references...

Loading citations...

Featured Keywords

Time-dependent failure possibility

Fuzzy uncertainty

Safety life

Fuzzy simulation

Sequential Kriging

CSP reduction strategy

Dichotomy method

shopping_basket PURCHASE DATA

Numerical investigation of precast reinforced concrete beam–to–column joints by replaceable damper

Abstract

This study aimed to investigate the precast reinforced concrete beam-to-column joints behaviors through the replaceable damper under cyclic loading. The precast concrete specimens have been embedded with steel reinforcement and specially shaped connectors. After the application of the replaceable damper under cyclic loading, the energy dissipation shaped very well and increased the bearing capacity of precast specimens. The precast concrete beam–to–column joints were designed and analyzed to compare with the traditional reinforced concrete (RC) specimen. The analysis result of the loading based on the controlled displacement method showed that the precast specimen model with a damper has more hysterical behavior than the traditional RC frame. Also, the specimen (PS-1) is passed the 2.7% chord rotation, which showed higher performance, than the traditional RC specimen. The efficiency of the PS-1 specimen with a special connection has been elaborated with the finite element method (FEM) and simulated by ABAQUS software.

article Article

date_range 2022

language English

link Link of the paper

ABAQUS software F...

Monolotic model-Ampelitude (cae)