EFFECT OF DIFFERENT RESIDUAL STRESS ENGINEERING TECHNIQUES ON THE RESIDUAL STRESS AND FATIGUE CRACK GROWTH BEHAVIOUR IN AA7075

Jonas Lehmann; Volker Ventzke; Falk Dorn; Christian Knothe-Horstmann; Benjamin Klusemann; Nikolai Kashaev; Noomane Ben Khalifa

EFFECT OF DIFFERENT RESIDUAL STRESS ENGINEERING TECHNIQUES ON THE RESIDUAL STRESS AND FATIGUE CRACK GROWTH BEHAVIOUR IN AA7075

Research output: Contributions to collected editions/works › Published abstract in conference proceedings › Research

Standard

EFFECT OF DIFFERENT RESIDUAL STRESS ENGINEERING TECHNIQUES ON THE RESIDUAL STRESS AND FATIGUE CRACK GROWTH BEHAVIOUR IN AA7075. / Lehmann, Jonas; Ventzke, Volker; Dorn, Falk et al.
European Conference on Fracture 2024: Book of Abstracts. ed. / Zeljko Bozic; Zeljko Domazet; Robert Basan; Milan Vrdoljak; Marijan Andric. Zagreb: University of Zagreb, 2024. p. 410-410.

Research output: Contributions to collected editions/works › Published abstract in conference proceedings › Research

Harvard

Lehmann, J, Ventzke, V, Dorn, F, Knothe-Horstmann, C, Klusemann, B, Kashaev, N & Ben Khalifa, N 2024, EFFECT OF DIFFERENT RESIDUAL STRESS ENGINEERING TECHNIQUES ON THE RESIDUAL STRESS AND FATIGUE CRACK GROWTH BEHAVIOUR IN AA7075. in Z Bozic, Z Domazet, R Basan, M Vrdoljak & M Andric (eds), European Conference on Fracture 2024: Book of Abstracts. University of Zagreb, Zagreb, pp. 410-410.

APA

Lehmann, J., Ventzke, V., Dorn, F., Knothe-Horstmann, C., Klusemann, B., Kashaev, N., & Ben Khalifa, N. (2024). EFFECT OF DIFFERENT RESIDUAL STRESS ENGINEERING TECHNIQUES ON THE RESIDUAL STRESS AND FATIGUE CRACK GROWTH BEHAVIOUR IN AA7075. In Z. Bozic, Z. Domazet, R. Basan, M. Vrdoljak, & M. Andric (Eds.), European Conference on Fracture 2024: Book of Abstracts (pp. 410-410). University of Zagreb.

Vancouver

Lehmann J, Ventzke V, Dorn F, Knothe-Horstmann C, Klusemann B, Kashaev N et al. EFFECT OF DIFFERENT RESIDUAL STRESS ENGINEERING TECHNIQUES ON THE RESIDUAL STRESS AND FATIGUE CRACK GROWTH BEHAVIOUR IN AA7075. In Bozic Z, Domazet Z, Basan R, Vrdoljak M, Andric M, editors, European Conference on Fracture 2024: Book of Abstracts. Zagreb: University of Zagreb. 2024. p. 410-410

Bibtex

@inbook{c6e2e516671f4df0bc96eef422fc4729,

title = "EFFECT OF DIFFERENT RESIDUAL STRESS ENGINEERING TECHNIQUES ON THE RESIDUAL STRESS AND FATIGUE CRACK GROWTH BEHAVIOUR IN AA7075",

abstract = "Product life and damage tolerance can be significantly improved by modifying residual stresses in the near surface region. For instance, high compressive residual stresses can lead to a retardation of fatigue crack growth. Various mechanical surface treatment processes with different process characteristics are available to affect the residual stress state and can be used to increase the fatigue resistance of the product.In this study, three promising residual stress engineering techniques namely laser shock peening (LSP), hammer peening (HAM) and deep rolling (DR) were applied to generate deep compressive residual stress fields in the aluminum alloy 7075-T6, see Figure 1. The aim of the study is to investigate the effects on microstructure and fatigue crack growth behaviour of the three different residual stress techniques using comparable residual stress profiles in terms of the compressive stress area under the curve (mm × MPa). Fatigue crack growth tests were carried out on C(T)100 specimens in accordance with ASTM E647. All the residual stress engineering techniques resulted in improved resistance to fatigue crack growth compared to the untreated base material. Based on microfractographic investigations, it was found that the crackclosure effect due to the presence of residual compressive stresses is mainly responsible for retardation of fatigue crack growth.",

keywords = "Engineering",

author = "Jonas Lehmann and Volker Ventzke and Falk Dorn and Christian Knothe-Horstmann and Benjamin Klusemann and Nikolai Kashaev and {Ben Khalifa}, Noomane",

year = "2024",

language = "English",

pages = "410--410",

editor = "Zeljko Bozic and Zeljko Domazet and Robert Basan and Milan Vrdoljak and Marijan Andric",

booktitle = "European Conference on Fracture 2024",

publisher = "University of Zagreb",

address = "Croatia",

}

RIS

TY - CHAP

T1 - EFFECT OF DIFFERENT RESIDUAL STRESS ENGINEERING TECHNIQUES ON THE RESIDUAL STRESS AND FATIGUE CRACK GROWTH BEHAVIOUR IN AA7075

AU - Lehmann, Jonas

AU - Ventzke, Volker

AU - Dorn, Falk

AU - Knothe-Horstmann, Christian

AU - Klusemann, Benjamin

AU - Kashaev, Nikolai

AU - Ben Khalifa, Noomane

PY - 2024

Y1 - 2024

N2 - Product life and damage tolerance can be significantly improved by modifying residual stresses in the near surface region. For instance, high compressive residual stresses can lead to a retardation of fatigue crack growth. Various mechanical surface treatment processes with different process characteristics are available to affect the residual stress state and can be used to increase the fatigue resistance of the product.In this study, three promising residual stress engineering techniques namely laser shock peening (LSP), hammer peening (HAM) and deep rolling (DR) were applied to generate deep compressive residual stress fields in the aluminum alloy 7075-T6, see Figure 1. The aim of the study is to investigate the effects on microstructure and fatigue crack growth behaviour of the three different residual stress techniques using comparable residual stress profiles in terms of the compressive stress area under the curve (mm × MPa). Fatigue crack growth tests were carried out on C(T)100 specimens in accordance with ASTM E647. All the residual stress engineering techniques resulted in improved resistance to fatigue crack growth compared to the untreated base material. Based on microfractographic investigations, it was found that the crackclosure effect due to the presence of residual compressive stresses is mainly responsible for retardation of fatigue crack growth.

AB - Product life and damage tolerance can be significantly improved by modifying residual stresses in the near surface region. For instance, high compressive residual stresses can lead to a retardation of fatigue crack growth. Various mechanical surface treatment processes with different process characteristics are available to affect the residual stress state and can be used to increase the fatigue resistance of the product.In this study, three promising residual stress engineering techniques namely laser shock peening (LSP), hammer peening (HAM) and deep rolling (DR) were applied to generate deep compressive residual stress fields in the aluminum alloy 7075-T6, see Figure 1. The aim of the study is to investigate the effects on microstructure and fatigue crack growth behaviour of the three different residual stress techniques using comparable residual stress profiles in terms of the compressive stress area under the curve (mm × MPa). Fatigue crack growth tests were carried out on C(T)100 specimens in accordance with ASTM E647. All the residual stress engineering techniques resulted in improved resistance to fatigue crack growth compared to the untreated base material. Based on microfractographic investigations, it was found that the crackclosure effect due to the presence of residual compressive stresses is mainly responsible for retardation of fatigue crack growth.

KW - Engineering

UR - https://plus.cobiss.net/cobiss/adz/en/bib/208057091

M3 - Published abstract in conference proceedings

SP - 410

EP - 410

BT - European Conference on Fracture 2024

A2 - Bozic, Zeljko

A2 - Domazet, Zeljko

A2 - Basan, Robert

A2 - Vrdoljak, Milan

A2 - Andric, Marijan

PB - University of Zagreb

CY - Zagreb

ER -