Establishment of a Uniaxial Tensile Fracture Inversion Model Based on Fracture Surface Reconstruction (FRASTA)

Author:

Jia Haidong1,Jiao Zhenghao2,Dai Lianshuang3,Que Yongbin1,Feng Qingshan3,Yang Ming1,Cao Yuguang2

Affiliation:

1. PipeChina West Pipeline Company, Urumqi 830013, China

2. College of Pipeline and Civil Engineering, China University of Petroleum (East China), Qingdao 266580, China

3. PipeChina Company, Beijing 100013, China

Abstract

In order to infer the load on the component after the experimental uniaxial tensile fracture inversion model based on cross-sectional reconstruction, (FRASTA) was proposed to infer the load on the tested components. This model can combine the fracture surface characteristics of experimental specimens to reconstruct the fracture surface morphology and invert the fracture process of uniaxial tensile specimens. Based on the assumption of rectangular rod fracture, a quantitative inversion model for a unidirectional stress load based on dissipative plasticity characteristics was established, and the inversion results based on cross-sectional reconstruction were compared with the experimental measurement results. The results indicate that when only considering the unidirectional stress state, the two have a high degree of consistency, with a maximum measurement error of 5.3%, fully verifying the accuracy of the fracture surface reconstruction and inversion model.

Funder

National Natural Science Foundation of China

Shandong Provincial Natural Science Foundation

Research on failure mechanism for girth weld of high steel pipeline

Publisher

MDPI AG

Reference20 articles.

1. Mechanical properties of high strength steels and weld metals at arctic low temperatures;Chen;Thin-Walled Struct.,2023

2. Analysis of mechanical properties and its associated fracture surfaces in dual-phase austempered ductile iron;Basso;Fatigue Fract. Eng. Mater. Struct.,2013

3. Li, C.J., Liu, K., and Wang, H.R. (2020, January 12–14). Study on Determination of Mechanical Properties of Metal by Indentation Test. Proceedings of the 4th IEEE Information Technology, Networking, Electronic and Automation Control Conference 2020, Chongqing, China.

4. Influence of core hardness on bending strength of tooth in cylindrical gears under quasistatic loading conditions;Bozca;Fatigue Fract. Eng. Mater. Struct.,2008

5. Li, J.B., Zhong, R., and Shen, X.W. (2020, January 10–11). Ultrasonic Nondestructive Testing Method for Mechanical Properties of Metallic Nanomaterials. Proceedings of the 2020 Asia Conference on Geological Research and Environmental Technology, Kamakura, Japan.

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