Evaluation of Novel In-Situ Monitoring Techniques for Detecting Hydrogen Concentration and Distribution During Welding and Post-Weld Treatments in Damp Conditions

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odo kyrian chigozie

Evaluation of Novel In-Situ Monitoring Techniques for Detecting Hydrogen Concentration and Distribution During Welding and Post-Weld Treatments in Damp Conditions

Authors: odo kyrian chigozie

Unique Paper ID: 171391
Volume: 11
Issue: 7
PageNo: 3389-3398

Keywords: Hydrogen embrittlement In-situ monitoring Welding Damp conditions Sensor technologies Real-time hydrogen detection post-weld heat treatment (PWHT).

Abstract:
This systematic review scrutinizes the latest developments in innovative in-situ monitoring techniques for detecting hydrogen concentration and distribution during welding and post-weld treatments under damp conditions. The review consolidates findings from experimental research, emphasizing real-time measurement methodologies, sensor technologies, and data analysis methodologies. Critical analysis is provided on key factors affecting measurement accuracy and reliability, including environmental influences, welding parameters, and material properties. The review underscores the necessity of developing robust monitoring systems to mitigate hydrogen-induced cracking in welded structures subjected to damp environments. Additionally, challenges in industrial application and future research directions are explored.

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ISSN: 2349-6002
Volume: 11
Issue: 7
PageNo: 3389-3398

Evaluation of Novel In-Situ Monitoring Techniques for Detecting Hydrogen Concentration and Distribution During Welding and Post-Weld Treatments in Damp Conditions

Available:https://ijirt.org/article?manuscript=171391

Impact Factor
8.01 (Year 2024)

UGC Approved
Journal no 47859

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