Title: | Fatigue Properties and Residual Stresses of Laser-Welded Heat-Resistant Pressure Vessel Steel, Verification on Vessel Model |
Other Titles: | Únavové vlastnosti a zbytková napětí laserem svařované žáruvzdorné oceli tlakové nádoby, ověření na modelu nádoby |
Authors: | Čapek, Jiří Kec, Jan Trojan, Karel Černý, Ivo Ganev, Nikolaj Kolařík, Kamil Němeček, Stanislav |
Citation: | ČAPEK, J. KEC, J. TROJAN, K. ČERNÝ, I. GANEV, N. KOLAŘÍK, K. NĚMEČEK, S. Fatigue Properties and Residual Stresses of Laser-Welded Heat-Resistant Pressure Vessel Steel, Verification on Vessel Model. Metals, 2022, roč. 12, č. 9, s. 1-16. ISSN: 2075-4701 |
Issue Date: | 2022 |
Publisher: | MDPI |
Document type: | článek article |
URI: | 2-s2.0-85138730412 http://hdl.handle.net/11025/51323 |
ISSN: | 2075-4701 |
Keywords: | laserové svařování;teplotně odolné oceli pro tlakové nádoby;mikrostruktura;rentgenová difrakce;vysokocyklové únavové zkoušky |
Keywords in different language: | laser welding;heat-resistant pressure vessel steel;microstructure;X-ray diffraction;high-cycle fatigue tests |
Abstract: | Most power plants use the Rankine cycle, where the heat supplied to water and steam is converted into mechanical work; therefore, most components have to be made of heat-resistant steel. Sufficient mechanical properties must be ensured for welded pipes to meet stringent requirements. Therefore, laser-welded 5 mm thick heat-resistant pressure vessel steel plates were subjected to various mechanical tests, including high-cycle fatigue tests. The microstructural notches were determined using X-ray diffraction too to determine critical areas that are susceptible to crack initialization and affect the service life. Finally, a functional model of the pressure vessel subsequently verified the results and assumptions. The presented results ensure the transferability of the results to real-life applications and outline the promising application potential of laser welding for producing vessels and pipes from heat-resistant steel in the industry. |
Abstract in different language: | Most power plants use the Rankine cycle, where the heat supplied to water and steam is converted into mechanical work; therefore, most components have to be made of heat-resistant steel. Sufficient mechanical properties must be ensured for welded pipes to meet stringent requirements. Therefore, laser-welded 5 mm thick heat-resistant pressure vessel steel plates were subjected to various mechanical tests, including high-cycle fatigue tests. The microstructural notches were determined using X-ray diffraction too to determine critical areas that are susceptible to crack initialization and affect the service life. Finally, a functional model of the pressure vessel subsequently verified the results and assumptions. The presented results ensure the transferability of the results to real-life applications and outline the promising application potential of laser welding for producing vessels and pipes from heat-resistant steel in the industry. |
Rights: | © authors |
Appears in Collections: | Články / Articles (KMM) OBD |
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metals-12-01517 (2).pdf | 7,7 MB | Adobe PDF | View/Open |
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