Pavan Meena scite author profile

Purpose This paper aims to measure peak temperatures and cooling rates for distinct locations of thermocouples in the butt weld joint of mild steel plates. For experimental measurement of peak temperatures, K-type thermocouples coupled with a data acquisition system were used at predetermined locations. Thereafter, Rosenthal’s analytical models for thin two-dimensional (2D) and thick three-dimensional (3D) plates were adopted to predict peak temperatures for different thermocouple positions. A finite element model (FEM) based on an advanced prescribed temperature approach was adopted to predict time-temperature history for predetermined locations of thermocouples. Design/methodology/approach Comparing experimental and Rosenthal analytical models (2D and 3D) findings show that predicted and measured peak temperatures are in close agreement, while cooling rates predicted by analytical models (2D, 3D) show significant variation from measured values. On the other hand, 3D FEM simulation predicted peak temperatures and cooling rates for different thermocouple positions are close to experimental findings. Findings The inclusion of filler metal during simulation of welding rightly replicates the real welding situation and improves outcomes of the analysis. Originality/value The present study is an original contribution to the field of welding technology.

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Numerical Investigation of Weld Induced Residual Stress State Field for Improved Structural Integrity in AUSC Power Plant Applications

Meena

Anant

2023

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On the Interaction to Thermal Cycle Curve and Numerous Theories of Failure Criteria for Weld-Induced Residual Stresses in AISI304 Steel using Element Birth and Death Technique

Meena

Anant

2023

J. of Materi Eng and Perform

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Pavan Meena

Numerical Analysis of Different SUS304 Steel Weld Joint Configurations Using new Prescribed Temperature Approach

Experimental, analytical and numerical, investigation of peak temperature and cooling rate in butt joint weld of mild steel

Numerical Investigation of Weld Induced Residual Stress State Field for Improved Structural Integrity in AUSC Power Plant Applications

On the Interaction to Thermal Cycle Curve and Numerous Theories of Failure Criteria for Weld-Induced Residual Stresses in AISI304 Steel using Element Birth and Death Technique

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