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1. Microstructure evaluation of 304 stainless-steel welds through robotic gmaw process

   One of the most widely used process in the metal-mechanical industry is welding, especially Gas Metal Arc Welding (GMAW), which allows the joining of...

   José Antonio Zamora-Núñez, Ramiro Rodríguez-Rosales, ... Ali Tahaei in MRS Advances

   Article 10 November 2023
   

2. Mechanical Properties of Wire Arc Additive Manufactured 5356 Aluminum Alloy Wall Using Robotic-Controlled GMAW

   Aluminum alloy, due to its lightweight, is widely used in automobile, shipbuilding and aerospace applications. Wire arc Additive Manufacturing (WAAM)...

   Mukesh Chandra, Sonu Rajak, ... Rakesh in Metallography, Microstructure, and Analysis

   Article 07 November 2023
   

3. Effect of the Robotic GMAW Parameters on the HAZ Width in HQ130 Steel Joints

   Gas-metal arc welding (GMAW) has received much attention over the last several years and has numerous wide and beneficial applications in different...

   H. R. Ghazvinloo, A. Honarbakhsh-Raouf in Materials Science

   Article 01 January 2022
   

4. Large-size sprocket repairing based on robotic GMAW additive manufacturing

   The variable and irregular surface damage of large-size sprockets has led to many challenges in the robotic GMAW-based automatic repair, which is a...

   **nlei Li, Qinglin Han, Guangjun Zhang in Welding in the World

   Article 10 February 2021
   

5. Robotic welding system for adaptive process control in gas metal arc welding

   Changing process conditions such as distortion, varying seam preparation or gap width during welding is a major challenge in automated gas metal arc...

   A. Biber, R. Sharma, U. Reisgen in Welding in the World

   Article Open access 27 March 2024
   

6. Characterization of Fillet Welded Armor Steel Performed by Robotic Gas Metal Arc Welding: Effect of Heat Input on Microstructure and Microhardness

   In this research, fillet welding was conducted on 8-mm thick Miilux OY Protection 600 (MIL-A-46100) armor steel using AWS A5.9 GeKa ER307 austenitic...

   Ozan Çoban, Fatih Kaymak, ... Mustafa Koçak in Journal of Materials Engineering and Performance

   Article 26 December 2023
   

7. Autonomous Robotic Underwater Welding—A Review

   Underwater welding has shown to be most effective technique for repairing of submerged heavy structures, which are either required to be welded in...

   Milan Kumar Maity, Saurav Suman, Pankaj Biswas in Recent Advances in Materials

   Conference paper 2023
   

8. Simulation and verification of grain size prediction on SS316L GMAW process

   Abstract

   This fundamental research aims to apply a numerical model of free grain growth theory using a self-developed algorithm. The algorithm will...

   Muhd Faiz Mat, Yupiter H. P. Manurung, ... Pascal Colditz in MRS Communications

   Article 18 February 2022
   

9. Surface Characteristics, Microstructural, and Tribological Behavior of Wire Arc Additive Manufactured Aluminum-5356 Alloy

   In the present work, aluminum-5356 alloy was deposited using wire arc additive manufacturing (WAAM) equipped with a robotic gas metal arc welding...

   Sumit K. Sharma, Mukesh Chandra, ... Sonu Rajak in Journal of Materials Engineering and Performance

   Article 18 March 2024
   

10. Production and Evaluation of Microstructure and Mechanical Properties of Stellite 6 Prototype Parts by Robotic Wire Arc Additive Manufacturing

    Wire arc additive manufacturing (WAAM) is increasingly employed to fabricate high volume and complex products having greater flexibility and better...

    Jonah Nadarajan Murugan, S. Vetrivel Duraisamy, ... R. Arulmani in Transactions of the Indian Institute of Metals

    Article 29 August 2022
    

11. Microstructural analysis and mechanical behavior of the HAZ in an API 5L X70 steel welded by GMAW process

    This study aimed to investigate the heat-affected zone (HAZ) behavior in an API 5L X70 steel welded by the gas metal arc welding process (GMAW). In...

    Vinícius dos Santos Dagostini, Ariane Neves de Moura, ... Estéfano Aparecido Vieira in Welding in the World

    Article 11 March 2021
    

12. Wire arc additive manufacturing of ER-4043 aluminum alloy: evaluation of bead profile, microstructure, and wear behavior

    Wire arc additive manufacturing technique has a major transformation in metal manufacturing as a result of recent technological advancements. The...

    Kashif Hasan Kazmi, Alok Kumar Das, ... Amarish Kumar Shukla in Welding in the World

    Article 13 July 2023
    

13. Analysis of Gas Metal Arc Welding Process Using Improved Complete Ensemble Empirical Mode Decomposition with Adaptive Noise

    The gas metal arc welding (GMAW) process, prevalent in construction and fabrication sectors, traditionally relies on postproduction evaluations,...

    Vikas Kumar, Manoj K. Parida, Shaju K. Albert in Transactions of the Indian Institute of Metals

    Article 03 July 2024
    

14. Wire Arc Additive Manufacturing of ER-4043 Aluminum Alloy: Effect of Tool Speed on Microstructure, Mechanical Properties and Parameter Optimization

    Recent technological breakthroughs have had a significant impact on wire arc additive manufacturing (WAAM) technology in the metal manufacturing...

    Kashif Hasan Kazmi, Sumit K. Sharma, ... Ranjan Mandal in Journal of Materials Engineering and Performance

    Article 23 May 2023
    

15. Mechanical and Microstructural Characteristics of Conventional and Robotic Gas Metal Arc Welded Low Carbon Steel Joints: A Comparative Study

    In the recent automobile era, SAE 1022, low carbon manganese steel is widely used in structural members of automobiles. These steels possess good...

    S. Rajakumar, P. Vimal Kumar, ... V. Balasubramanian in Metallography, Microstructure, and Analysis

    Article 19 May 2020
    

16. Development of Wire Arc Additive Manufactured Cu-Si Alloy: Study of Microstructure and Wear Behavior

    Wire arc additive manufacturing (WAAM) is an approach to develop unique and sophisticated design products in comparison to other traditional...

    Kashif Hasan Kazmi, Sumit K. Sharma, ... Amarish Shukla in Journal of Materials Engineering and Performance

    Article 21 February 2023
    

17. Wire Arc Additive Manufactured Radial Thin Wall: Fabrication Strategy, Macroscopic Defect Control, Microstructure, and Mechanical Properties

    The pulsed current in gas metal arc welding (GMAW) provides a smoother arc, spatter-free, proper width, and flat cap, suitable for wire arc additive...

    Habib Hamed Zargari, Vahid Ziaei Laleh in Journal of Materials Engineering and Performance

    Article 07 June 2024
    

18. A Comparative Study on Metallographic and Mechanical Properties of Armox 500T Armor Steel Plates Joined Using Different Arc Welding Methods

    This study comparatively investigated how the metallographic and mechanical properties of Armox 500T armor steel plates joined with Hybrid Plasma Arc...

    Ö.S. Bölükbaşi, C. Yüksel in Experimental Techniques

    Article 09 March 2022
    

19. Development and Implementation of Wire Arc Additive Manufacturing (WAAM) Based on Pulse Spray GMAW for Aluminum Alloy (AlSi7Mg)

    Wire arc additive manufacturing (WAAM) is a manufacturing technology that uses an arc welding process to produce metal parts additively. The key...

    Mayur Patel, Sanjiv Mulgaonkar, ... Tushar Borse in Transactions of the Indian Institute of Metals

    Article 22 January 2021
    

20. Mechanical Performance and Failure Mechanism of Layered Walls Produced by Wire Arc Additive Manufacturing in Metal Transfer Pulsed Mode

    The Wire Arc Additive Manufacturing (WAAM) is a technique for 3D printing of metallic pieces. Aluminum alloys are particularly studied due to their...

    I. Guzmán-Flores, E. E. Granda-Gutiérrez, ... C. E. Cruz-González in Journal of Materials Engineering and Performance

    Article 04 April 2022