Fatigue Life of Welded High-strength Steels under Gaussian Loads

Shot-peening and deep rolling are mechanical surface treatments that are commonly applied to enhance the fatigue performances of components, owing to their capacity to generate compressive residual stresses and induce work hardening. However, literature is still poor of published data concerning the application of these treatments to high strength steels fasteners, although these represent a class of components among the most widespread. In the present work, the impact of deep rolling and shot-peening performed in the underhead radius of two set of fasteners made of 36NiCrMo and 42CrMoV for fatigue life enhancement has been investigated. The experimental tests consisted of six combinations of shot-peening and deep rolling, including the non-treated state. Two test campaigns have been sequentially carried out with different process parameters and treatment sequences. The results always showed a beneficial impact of the deep rolling on fatigue, especially for the 42CrMoV steel. Conversely, the effect of the shot-peening strongly depended on the selected set of parameters, alternatively leading to an improvement or a worsening of the fatigue life in relation to the level of induced surface roughness.

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Fatigue Life Predictions for High Strength Steels in Automotive Applications

10.4271/810435 ◽

1981 ◽

Cited By ~ 1

Author(s):

A. M. Sherman ◽

R. G. Davies ◽

A. R. Krause

Keyword(s):

Fatigue Life ◽

High Strength Steels ◽

High Strength ◽

Automotive Applications ◽

Life Predictions

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A two-parameter model to predict fatigue life of high-strength steels in a very high cycle fatigue regime

Acta Mechanica Sinica ◽

10.1007/s10409-015-0451-4 ◽

2015 ◽

Vol 31 (3) ◽

pp. 383-391 ◽

Cited By ~ 10

Author(s):

Chengqi Sun ◽

Xiaolong Liu ◽

Youshi Hong

Keyword(s):

Fatigue Life ◽

High Cycle Fatigue ◽

High Strength Steels ◽

High Strength ◽

Cycle Fatigue ◽

Very High Cycle Fatigue ◽

Two Parameter ◽

Very High

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Influence of Weld Imperfections on the Fatigue Behaviour of Resistance Spot Welded Advanced High Strength Steels

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.891-892.1445 ◽

2014 ◽

Vol 891-892 ◽

pp. 1445-1450 ◽

Cited By ~ 1

Author(s):

Michael Rethmeier

Keyword(s):

Fatigue Life ◽

High Strength Steels ◽

High Strength ◽

Fatigue Behaviour ◽

Whole Body ◽

Surface Cracks ◽

Significant Drop ◽

Resistance Spot ◽

Advanced High Strength Steels ◽

Body In White

The use of advanced high strength steels (AHSS) in the automotive body-in-white is increasing. Those steels are predominantly joined by resistance spot welding. For the performance of the whole body-in-white, the fatigue behaviour is of high interest, especially as during production, weld imperfections such as cracks and manufacturing-related gaps cannot be avoided. In this study the TRIP steel HCT690 was used as it is a typical advanced high strength steel in automotive production. The investigation into the influence of cracks was split depending on the crack location in the weld area. Surface cracks in the electrode indentation area as well as in the heat affected zone were produced during welding and analyzed. The results showed that surface cracks independent of their position have no effect on the fatigue life. The produced internal imperfections have shown only a marginal impact on the fatigue life. It was ascertained that gaps of 3 mm lead to a significant drop in fatigue life compared to gap free shear tension samples under a load ratio R of 0.1. This fact was attributed to decreased stiffness, higher transverse vibration and higher rotation between the sheets. Furthermore, FE-simulations have shown an increase in local stresses in gapped samples.

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Calculation of Fatigue Capacity for a Subsea Wellhead Connector

Volume 2B: Structures, Safety, and Reliability ◽

10.1115/omae2020-19329 ◽

2020 ◽

Author(s):

Seyed H. Hashemizadeh ◽

Venu Sunkavilli ◽

Torfinn Hørte ◽

Per Osen

Keyword(s):

Fatigue Life ◽

Hot Spot ◽

High Strength Steels ◽

Steel Structures ◽

High Strength ◽

Element Model ◽

Fe Model ◽

Specific Advice ◽

Drilling Operations ◽

Set Up

Abstract In the 2019 version of DNVGL-RP-C203 Fatigue Design of Offshore Steel Structures, significantly improved methods have been added on how to establish M-N curves representing the fatigue resistance of preloaded connectors subject to cyclic bending. The M-N curve parameters are typically provided by the manufacturer and used by operators and drilling contractors for calculating the wellhead fatigue life for planned drilling operations. DNVGL-RP-C203 provides specific advice on how to establish design M-N curves based on analysis, and the augmentation by possible testing, where testing may grant more favorable M-N curves and thus extended fatigue life for any given case. The paper provides background and introduction to the improved analysis methodology and relevant S-N curves for high-strength steels for wellhead systems, given in the 2019 version of the DNVGL-RP-C203. It includes a worked example in order to demonstrate the detailed use of the method, applied on a Baker Hughes preloaded BOP connector, connected to a 27” wellhead mandrel. This example describes the finite element model set up, FE model mesh refinement in hot-spots, the application of cyclic loads, extraction of hot-spot cyclic stresses, and the establishment of the M-N curve for the connector.

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Parametric study of the potential of application of high-strength steels to increasing the service fatigue life of vehicle structures

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/461/1/012037 ◽

2018 ◽

Vol 461 ◽

pp. 012037 ◽

Cited By ~ 1

Author(s):

M Kepka ◽

J Tittel

Keyword(s):

Fatigue Life ◽

Parametric Study ◽

High Strength Steels ◽

High Strength

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Increasing fatigue performance in AHSS thick sheet by surface treatments

MATEC Web of Conferences ◽

10.1051/matecconf/201816522015 ◽

2018 ◽

Vol 165 ◽

pp. 22015

Author(s):

Sergi Parareda ◽

Antoni Lara ◽

Henrik Sieurin ◽

Héber D´Armas ◽

Daniel Casellas

Keyword(s):

Surface Roughness ◽

Fatigue Life ◽

Residual Stresses ◽

High Strength Steels ◽

High Strength ◽

Fatigue Tests ◽

Surface Treatments ◽

Thick Sheet ◽

Steel Grades ◽

Mechanical Surface

Advanced High Strength Steels (AHSS) have been widely applied in the automotive industry as an affordable solution for car lightweighting, mainly in parts subjected to crash requirements. Heavy duty vehicle (HDV) can also benefit from the expertise learned in cars, but parts must be designed considering fatigue resistance, especially on trimmed areas, and stiffness. Mechanical surface treatments, as blasting or shot peening, help increasing fatigue life of AHSS in trimmed areas and will allow weight reduction in HDV through gauge downsizing. The expected decrease in stiffness through thickness reduction can be improved by design changes. However, scarce information about the effect of mechanical surface treatments on AHSS are available. Thus, the aim of this work is to evaluate the increment in fatigue life of two different steel grades (350 MPa, and 500MPa of yield strength) in thick sheet by means of mechanical surface treatment – sandblasting. High Cycle Fatigue [HCF] tests were conducted at alternating load [R=-1]. Residual stresses were measured by an X-ray tensometry prior fatigue tests. Also the surface roughness [Rz] and form is measured using an optical non-contact 3D microscope. On the other hand, the fracture surfaces of the test specimens were observed via scanning electron microscope (SEM) in order to determine the crack initiation points. The evaluation of fatigue life in terms of SN curves is also discussed, analysing how the sandblasting process modifies the surface roughness and introduce compressive residual stresses on the external layer of the material. Both phenomena enhance the fatigue strength of the evaluated steel grades.

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