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Thin Circular Hollow Section-to-Plate T-joints: Stress Concentration Factors and Fatigue Failure under In-Plane Bending


Mashiri, FR and Zhao, XL, Thin Circular Hollow Section-to-Plate T-joints: Stress Concentration Factors and Fatigue Failure under In-Plane Bending, Thin-Walled Structures, 44, (2) pp. 159-169. ISSN 0263-8231 (2006) [Refereed Article]

DOI: doi:10.1016/j.tws.2006.02.003


Welded thin-walled (t<4 mm) tube-to-plate T-joints made up of cold-formed circular hollow sections welded onto a plate to form a moment resistant connection are used in the road transport and agricultural industry to manufacture equipment and other structural systems. Fatigue design of these joints is not available in current standards. An understanding of the stress concentrations and failure in these connections is therefore necessary as a step towards understanding the fatigue behaviour of these connections. Stress concentration factors (SCFs) of welded thin-walled (t<4 mm) circular hollow section (CHS)-to-plate T-joints are determined at different locations along the weld toes on the tubular brace. The distribution of SCFs along the weld toes shows that the highest SCF occurs at the weld toes in the circular brace at the 0° line. The ratio of the end of test fatigue life (N4) to the through-thickness fatigue life (N3) in the thin CHS-plate T-joints is found to fall within the range of N4/N3 found in previous research of both thick and thin-walled joints. Surface crack growth monitoring is used to obtain an approximation of the length of surface crack at the point of occurrence of a through-thickness crack. The relationship between surface crack length and the occurrence of a through-thickness crack is important in that it can be used as a measure of the criticality of a surface crack during structural health monitoring of equipment or structures. © 2006 Elsevier Ltd. All rights reserved.

Item Details

Item Type:Refereed Article
Research Division:Engineering
Research Group:Civil engineering
Research Field:Structural engineering
Objective Division:Construction
Objective Group:Construction materials performance and processes
Objective Field:Metals
UTAS Author:Mashiri, FR (Dr Fidelis Mashiri)
ID Code:45507
Year Published:2006
Web of Science® Times Cited:19
Deposited By:Engineering
Deposited On:2007-12-05
Last Modified:2007-12-05

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