M. Pouranvari scite author profile

Spot welding, particularly resistance spot welding (RSW), is a critical joining process in automotive industry. The development of advanced high strength steels for applications in automotive industry is accompanied with a challenge to better understand the physical and mechanical metallurgy of these materials during RSW. The present paper critically reviews the fundamental understanding of structure-properties relationship in automotive steels resistance spot welds. The focus is on the metallurgical characteristics, hardness-microstructure correlation, interfacial to pullout failure mode transition and mechanical performance of steel resistance spot welds under quasi-static, fatigue and impact loading conditions. A brief review of friction stir spot welding, as an alternative to RSW, is also included.

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Effect of weld nugget size on overload failure mode of resistance spot welds

Pouranvari¹,

Asgari²,

Mosavizadch³

et al. 2007

Science and Technology of Welding and Joining

222

157

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In the present paper, effects of welding current, welding time, electrode pressure and holding time on the weld nugget size were studied. A failure mechanism was proposed to describe both interfacial and pullout failure modes. This mechanism was confirmed by SEM investigations. In the light of this mechanism, the effect of welding parameters on static weld strength and failure mode was studied. Then, an analytical model was proposed to predict failure mode and to estimate minimum nugget diameter (critical diameter) to ensure pullout failure mode in shear tensile test. On the contrary to existing industrial standards, in this model, critical nugget diameter is attributed to metallurgical characterisation of material (weld nugget hardness to failure location hardness ratio), in addition to sheet thickness. For a given sheet thickness, decreasing H WN H FL increases interfacial failure mode tendency. The results of this model were compared with experimental data and also with the literature.

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Failure mode transition in AHSS resistance spot welds. Part I. Controlling factors

Pouranvari

Marashi

2011

Materials Science and Engineering: A

188

150

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The effect of intercritical heat treatment temperature on the tensile properties and work hardening behavior of ferrite–martensite dual phase steel sheets

Movahed

Kolahgar

Marashi

et al. 2009

Materials Science and Engineering: A

288

110

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Failure mode transition in AHSS resistance spot welds. Part II: Experimental investigation and model validation

Pouranvari

Marashi

Safanama

2011

Materials Science and Engineering: A

116

106

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M. Pouranvari

Critical review of automotive steels spot welding: process, structure and properties

Effect of weld nugget size on overload failure mode of resistance spot welds

Failure mode transition in AHSS resistance spot welds. Part I. Controlling factors

The effect of intercritical heat treatment temperature on the tensile properties and work hardening behavior of ferrite–martensite dual phase steel sheets

Failure mode transition in AHSS resistance spot welds. Part II: Experimental investigation and model validation

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