Role of buttering layer composition on microstructural heterogeneity and mechanical properties of Alloy 617 and P92 steel dissimilar welded joints for future Indian AUSC program
Abstract
Restrictive operating conditions (even exceeding 700 °C) of materials in advanced ultra super critical (AUSC) power plants and the need to minimize manufacturing and maintenance costs require the production of dissimilar metal welded joints (DMW). Significant differences in the physical and chemical properties of welded materials lead to phenomena that reduce the weldability of the metals used and force the search for solutions that limit unfavorable phenomena, e.g., the use of buttering layers. The study presents a comparison of two types of joints with Alloy 617 (UNS N06617) and ferritic P92 (UNS K92460) steel made using Inconel 82 (ENiCrFe-3) and Inconel 617 (ERNiCrCoMo-1) alloys buttering layer and the corresponding chemical composition of filler metals. All areas of the joints made with the gas tungsten arc welding process were subjected to structural investigations (optical microscopy, scanning electron microscopy (SEM), and energy-dispersive X-ray spectroscopy (EDS) and mechanical tests (microhardness, room and high temperature tensile, and toughness testing). Despite the more complicated welding procedure, sound welded joints were obtained with favorable properties resulting, inter alia, from the reduced thickness of the martensite layer in HAZ of P92 steel and the limited diffusion of alloy components compared to welded joints without the buttering layer. This also resulted in a reduction of the maximum hardness (especially in the case of Inconel 82 buttering—by 15–30 HV0.5 in comparison with Inconel 617 buttering) and an increase in strength while limiting the decrease in plasticity (even 663 MPa tensile strength and 21% of elongation for Inconel 617 buttered joint). Moreover, improved high-temperature performance (approximately 70–100 MPa) of the welded joint following the application of the buttering layer was confirmed. The presented results allow for drawing general conclusions that both proposed welding procedures can be recommended for use in the working conditions occurring at AUSC.
Citations
-
7
CrossRef
-
0
Web of Science
-
7
Scopus
Authors (7)
Cite as
Full text
full text is not available in portal
Keywords
Details
- Category:
- Articles
- Type:
- artykuły w czasopismach
- Published in:
-
INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
no. 133,
pages 671 - 700,
ISSN: 0268-3768 - Language:
- English
- Publication year:
- 2024
- Bibliographic description:
- Rathore S., Kumar A., Sirohi S., Singh V., Gupta A., Fydrych D., Pandey C.: Role of buttering layer composition on microstructural heterogeneity and mechanical properties of Alloy 617 and P92 steel dissimilar welded joints for future Indian AUSC program// INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY -,iss. 1-2 (2024), s.671-700
- DOI:
- Digital Object Identifier (open in new tab) 10.1007/s00170-024-13747-w
- Sources of funding:
-
- ‘Science and Engineering Research Board, India: grant No: CRG/2022/007729. Indian Institute of Technology Jodhpur: grant No: SEED/CHP/20210130.
- Verified by:
- Gdańsk University of Technology
seen 28 times
Recommended for you
Microstructure and mechanical properties of a dissimilar metal welded joint of Inconel 617 and P92 steel with Inconel 82 buttering layer for AUSC boiler application
- A. Kumar,
- S. Sirohi,
- M. Singh
- + 2 authors
Selection of Electrode Material for Inconel 617/P92 Steel SMAW Dissimilar Welds
- A. Kumar,
- S. M. Pandey,
- A. Bhattacharyya
- + 3 authors
P92 steel and inconel 617 alloy welds joint produced using ERNiCr-3 filler with GTAW process: Solidification mechanism, microstructure, mechanical properties and residual stresses
- A. Kumar,
- S. M. Pandey,
- S. Sirohi
- + 2 authors
Metallurgical characterization and high-temperature tensile failure of Inconel 617 alloy welded by GTAW and SMAW—a comparative study
- S. Sirohi,
- N. Kumar,
- A. Kumar
- + 4 authors