Experimental study of the impact of punching operations on the high cycle fatigue strength of Fe–Si thin sheets

Dehmani, Helmi; Brugger, Charles; Palin‐Luc, Thierry; Mareau, Charles; Koechlin, Samuel

doi:10.1016/j.ijfatigue.2015.09.030

Cited by 21 publications

(8 citation statements)

References 14 publications

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“…Since rotors are subjected to cyclic loadings, safely designing electrical machines against fatigue failure requires the understanding of the influence of punching operations on the fatigue behavior of Fe-Si thin sheets. As shown in different studies [1][2][3][4][5], important geometrical defects resulting from punching operations are observed on edges. Such defects, because they can be considered as potential fatigue crack initiation sites, are partly responsible for a degradation of the fatigue strength.…”

Section: Introductionmentioning

confidence: 87%

“…Such defects, because they can be considered as potential fatigue crack initiation sites, are partly responsible for a degradation of the fatigue strength. Also, in addition to geometrical defects, the punching process locally induces both hardening and residual stresses on the edge [3,4,[6][7][8]. These phenomena are observed on either thick (15 mm) or thin (0.23 mm) sheets and contribute to an important degradation of the fatigue resistance [1,2].…”

Section: Introductionmentioning

confidence: 99%

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High Cycle Fatigue Strength of Punched Thin Fe-Si Steel Sheets

Dehmani

Brugger

Palin‐Luc

et al. 2016

Materials Performance and Characterization

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Some parts of electrical machines are built from stacks of thin steel sheets, for which the coarse grain microstructure allows for minimizing magnetic losses.The fabrication process of these parts usually involves punching operations that generate important defects on the edges. Since these alterations may 3D optical profilometer, allowing us to identify the critical defect. It is found that the typical defect size is comparable to the grain size. KeywordsFe-Si steel sheet, HCF fatigue, punching effect, temperature effect, residual stress, defect

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Section: Introductionmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

High Cycle Fatigue Strength of Punched Thin Fe-Si Steel Sheets

Dehmani

Brugger

Palin‐Luc

et al. 2016

Materials Performance and Characterization

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“…• Microstructure Surface integrity is very dependant on the process being used, so studies on this subject usually focus on a specific process: machining [1,2,3], stamping [4], punching [5]. A large number of papers also deal with the impact of localised natural or artificial defects on fatigue strength.…”

Section: Introductionmentioning

confidence: 99%

A non-local approach to model the combined effects of forging defects and shot-peening on the fatigue strength of a pearlitic steel

Gerin

Pessard

Morel

et al. 2018

Theoretical and Applied Fracture Mechanics

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This study focuses on the influence on fatigue behaviour of the surface integrity of a steel connecting rod. The component is hot-forged and shot-blasted, producing a complex surface state with large surface defects and high residual stresses. In a prior study, the surface was thoroughly characterized and fatigue tests were performed. Several different surface states were analysed in order to quantify the influence of the various surface aspects. These tests showed that the forging defects and the residual stresses are the most influential aspects of the surface. The goal of this paper is to develop an approach capable of taking into account the influence of both these aspects on fatigue behaviour. Two methods were developed. First, using surface scans of the fatigue specimens, the forging defects were fitted with ellipsoids so as to determine their size and shape. This allows to easily compare the numerous defects and test various criteria in order to identify the critical defect of each specimen. The second method used was the finite element simulation of the defects based on real topography scans. Using a non-local approach based on the theory of critical distances, the simulations were used to accurately predict the influence of the defects' geometry. The residual stress profiles were integrated in the simulations using Dang Van's criterion. The predictions are accurate and show the importance of taking into account the real defect geometry when estimating the fatigue strength.

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“…In metallic alloys, defects can originate from material elaboration [1], manufacturing processes [2,3] or foreign-object impacts [4]. These defects have either 4 a geometrical (e.g.…”

Section: Introductionmentioning

confidence: 99%

Experimental study of the impact of geometrical defects on the high cycle fatigue behavior of polycrystalline aluminium with different grain sizes

Bracquart

Mareau

Saintier

et al. 2018

International Journal of Fatigue

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Geometrical defects are known to have a detrimental influence on the high cycle fatigue resistance of metallic alloys, smaller defects being less harmful. In this experimental work, the influence of the defect size on the high cycle fatigue behavior of polycrystalline aluminium with different grain sizes is investigated, to better understand the role of internal length scales. Firstly, different thermomechanical treatments are applied to obtain aluminium samples with either small (100 µm) or large (1000 µm) grains. The samples are used for preparing fatigue specimens, with either small (100 µm) or large (1000 µm) hemispherical defects. Fully reversed stress-controlled fatigue tests are then carried out.

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Experimental study of the impact of punching operations on the high cycle fatigue strength of Fe–Si thin sheets

Cited by 21 publications

References 14 publications

High Cycle Fatigue Strength of Punched Thin Fe-Si Steel Sheets

High Cycle Fatigue Strength of Punched Thin Fe-Si Steel Sheets

A non-local approach to model the combined effects of forging defects and shot-peening on the fatigue strength of a pearlitic steel

Experimental study of the impact of geometrical defects on the high cycle fatigue behavior of polycrystalline aluminium with different grain sizes

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