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1. Investigation of the microstructure obtained following joining stainless and medium carbon alloy steel by wire arc additive manufacturing

   The possibility of using wire arc additive manufacturing to obtain multilayer blanks from steels 30CrMgSi and 307Lsi by their simultaneous supply in...

   S. D. Neulybin, A. N. Yurchenko, ... Y. D. Schitsyn in Metallurgist

   Article 03 June 2024
   

2. Numerical Analysis of Heat Accumulation During Wire Arc Additive Manufacturing

   The wire arc additive manufacturingWire Arc Additive Manufacturing (WAAM) (WAAM) processProcess is one of the fast emerging metalMetals additive...

   V. Ajay, Amber Shrivastava in TMS 2024 153rd Annual Meeting & Exhibition Supplemental Proceedings

   Conference paper 2024
   

3. A Review on Wire Arc Additive Manufacturing of Magnesium Alloys: Wire Preparation, Defects and Properties

   Wire arc additive manufacturing (WAAM) is widely used in the rapid prototy** of large parts because of its high deposition rate, high material...

   Yi Li, Siqi Yin, ... Renguo Guan in Metals and Materials International

   Article 04 July 2024
   

4. Printing High-Strength High-Elongation Al4043 Alloy Using UNS A94043 Welding Wires through Wire Arc Additive Manufacturing

   The wire arc additive manufacturing technology with excellent development potential in recent years in the field of huge engineering structures and...

   T. Ramkumar, D. Nathan, ... P. Narayanasamy in Journal of Materials Engineering and Performance

   Article 13 October 2023
   

5. Controlling torch height and deposition height in robotic wire and arc additive manufacturing on uneven substrate

   Wire and arc additive manufacturing (WAAM) shows a great application potential to manufacture large-size metal components rapidly. However, the...

   Menghan Shi, Jun **ong in Welding in the World

   Article 27 November 2023
   

6. Microstructural Evolution and Anisotropy in Stainless Steel 316L from Wire Arc Additive Manufacturing

   Wire arc additive manufacturingWire arc additive manufacturing (WAAM) is economical when compared against traditional methods and can save up to 50%...

   Neeraj K. Mishra, Jignesh Nakrani, ... Amber Shrivastava in TMS 2024 153rd Annual Meeting & Exhibition Supplemental Proceedings

   Conference paper 2024
   

7. A Review of Challenges for Wire and Arc Additive Manufacturing (WAAM)

   Wire and arc additive manufacturing (WAAM) has a high deposition rate, high material utilization, and compact structure, so it is especially suitable...

   Lei Huang, **zhang Chen, ... Irina Panchenko in Transactions of the Indian Institute of Metals

   Article 06 January 2023
   

8. Thermal and microstructural analysis of intersections manufactured by wire arc additive manufacturing (WAAM)

   Wire arc additive manufacturing (WAAM) stands out in manufacturing metallic structures due to its great potential for application in industry for...

   Bruno Maciel Sousa, Fagner Guilherme Ferreira Coelho, ... Nilo Nogueira da Silva in Welding in the World

   Article 05 March 2024
   

9. 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
   

10. Analysis of AISI 316L-Ti Graded Deposition Fabricated by Wire and Arc Additive Manufacturing

    Manufacturing of steel and titanium-based bimetallic material using cold metal transfer-based wire arc additive manufacturing (CMT-WAAM) is a novel...

    Bunty Tomar, S. Shiva in Transactions of the Indian Institute of Metals

    Article 14 September 2023
    

11. Automated Determination of Grain Features for Wire Arc Additive Manufacturing

    The morphology and size of the grains of the additively manufactured (AM) parts affect the mechanical properties and performance. The present...

    J. Karimi, A. Bohlen, ... T. Seefeld in Journal of Materials Engineering and Performance

    Article Open access 12 May 2023
    

12. Mechanical Anisotropy and Failure Analysis of Inconel 625 Parts Manufactured Using Wire and Arc Additive Manufacturing (WAAM)

    This paper discusses the mechanical failure analysis of Inconel 625 parts fabricated through the Wire and Arc Additive Manufacturing (WAAM) process....

    M. Karmuhilan, Somasundaram Kumanan in Journal of Failure Analysis and Prevention

    Article 07 February 2024
    

13. Plasma wire arc additive manufacturing and its influence on high-carbon steel substrate properties

    Steels with a high carbon content are considered to be difficult to weld. High carbon equivalent indicates not only problems when joining such steels...

    Matthias Moschinger, Thomas Vauderwange, Norbert Enzinger in Welding in the World

    Article Open access 12 February 2024
    

14. Microstructure and Corrosion Properties of Stainless Steel 308L Prepared by Cold Metal Transfer–Wire Arc Additive Manufacturing

    Cold metal transfer (CMT)–wire arc additive manufacturing (WAAM) exhibits great potential in the production of large structural metallic components....

    **aoli Wang, Qingxian Hu, ... Shangwen Zhan in Journal of Materials Engineering and Performance

    Article 02 October 2023
    

15. Predicting porosity in wire arc additive manufacturing (WAAM) using wavelet scattering networks and sparse principal component analysis

    Wire arc additive manufacturing (WAAM) is getting much research attention because of its cost-effectiveness in the metallic production of large and...

    Joselito Yam Alcaraz II, Abhay Sharma, Tegoeh Tjahjowidodo in Welding in the World

    Article 07 February 2024
    

16. Effect of Heat Inputs on the Microstructures and Properties of 316L Stainless Steel Parts Manufactured by Wire and Arc Additive Manufacturing Processing

    The application of complex structure additive manufacturing parts is becoming increasingly widespread, but there is relatively little research,...

    **g Wang, Yushuang Huo, Jianchao Fan in Journal of Materials Engineering and Performance

    Article 12 June 2024
    

17. Development of Metallurgical and Mechanical Properties of Nickel-Based Superalloy Employed by Wire Arc Additive Manufacturing Technique

    Wire arc additive manufacturing (WAAM) has emerged as a promising novel method for producing complex structures used in industries such as aerospace,...

    R. Madesh, K. Gokul Kumar in Journal of Materials Engineering and Performance

    Article 12 June 2023
    

18. Effect of Different Wire Feeding Strategies on the Preparation of Functionally Graded Materials by Dual-Wire Arc Additive Manufacturing

    In preparation process of functionally graded materials with a composition transition along the torch-traveling direction by dual-wire arc additive...

    Tianxu Li, Zhijiang Wang, ... Shengsun Hu in Metallurgical and Materials Transactions B

    Article 01 December 2022
    

19. Fabrication and Fatigue Properties of Dissimilar Steel Functionally Graded Material Structure Through Wire Arc Additive Manufacturing

    Functionally graded materials (FGM) are structures that can provide different material properties together. To produce these structures, the additive...

    Yusuf Ayan, Nizamettin Kahraman in Journal of Materials Engineering and Performance

    Article 17 February 2023
    

20. Microstructural, Mechanical, and Corrosion Performance of Components Fabricated through Wire Arc Additive Manufacturing Process

    Wire arc additive manufacturing (WAAM) has garnered significant attention in industries owing to its ability to produce complex geometrical...

    Coomar Sudarsan, Bhupesh Singh Katiyar, ... Sushanta Kumar Panda in Journal of Materials Engineering and Performance

    Article 07 August 2023