Submit an Article
Become a reviewer
Vol 231
Pages:
307
Download volume:
RUS ENG
Metallurgy and concentration

Influence of post-welding processing on continuous corrosion rate and microstructure of welded joints of steel 20 and 30KHGSA

Authors:
A. M. Shchipachev1
S. V. Gorbachev2
About authors
  • 1 — Saint-Petersburg Mining University
  • 2 — Orenburg State University
Date submitted:
2018-01-23
Date accepted:
2018-02-25
Date published:
2018-06-25

Abstract

Welded joints of structure steels have lower corrosion resistance in comparison to base metal. To increase corrosion resistance of welded joints and heat-affected zone they use longtime and energy-consuming methods of thermal and mechanic processing. The article covers the possibility of using the superplasticity deformation (SD) effect for processing of welded joints. The effect of SD is that metals and alloys with a small grain size (of the order of 10 μm) under conditions of isothermal deformation at a certain temperature acquire the ability for unusually large plastic deformations while reducing the deformation resistance. Grain-boundary sliding during superplasticity provides a high degree of structural homogeneity. If the metal does not have the small grain size, then during isothermal deformation at appropriate temperature the SD effect will not be fully manifested but will cause relaxation of residual micro and macro strains, recrystallization, which can be used during processing of welded joints to ensure their full strength. There have been carried out the investigation of processing methods impact - SD, thermal cycling and influence of post-welding treatment on corrosion rate and microstructure of steels 20 and 30KhGSA. It is shown that after deformation in superplasticity mode there is low corrosion rate and more favorable microstructure in the studied samples of steel. Post-welding processing of welded joints in SD mode provides low tool loads and low energy costs. 

10.25515/pmi.2018.3.307
Go to volume 231

References

  1. Абдеев Р.Г. Целесообразность дополнительной обработки сварных швов после ремонта трубопроводов / Р.Г.Абдеев, И.В.Золотушкин, К.В.Петров // Современные технологии в нефтегазовом деле; УГНТН. Уфа, 2017. С. 95-98.
  2. Влияние послесварочной обработки на структурные особенности сварных соединений сталей 20 и 30ХГС А / С.В.Горбачев, А.П.Фот, А.М.Щипачев, Р.Я.Лутфуллин // Вестник Оренбургского государственного университета. 2015. № 4. С. 159-164.
  3. Горбачев С.В. Исследование разнозернистости при деформационно-термической обработке сварных соединений из стали 20 / С.В.Горбачев, А.М.Щипачев, Р.Я.Лутфуллин // Нефтегазовое дело: электронный научный журнал. 2014. № 1. С. 302-316. URL: http://www.ogbus.ru/authors/Gorbachev/Gorbachev
  4. Горбачев С.В. Повышение однородности структуры и механических свойств сварных соединений из сталей 20 и 30ХГСА в режиме сверхпластической деформации: Автореф. дис.…канд. техн. наук; УГНТУ. Уфа, 2005. 20 с.
  5. Гуляев А.П. Высокотемпературная пластичность углеродистых сталей / А.П.Гуляев, Л.М.Сарманова // Металловедение и термическая обработка металлов. 1972. № 4. С. 43.
  6. Ильиных А.С. Исследование сварных соединений рельсов после механической обработки при различной послесварочной температуре / А.С.Ильиных, М.С.Галай, Э.С.Сидоров // Обработка металлов (технология, оборудование, инструменты). 2017. № 3 (76) С. 28-34
  7. Кайбышев О.А. Сверхпластичность, измельчение структуры и обработка труднодеформирумых сплавов / О.А.Кайбышев, Ф.З.Утяшев. М.: Наука, 2002. 438 с.
  8. Корольков П.М. Влияние местной термообработки на свойства сварных соединений технологических трубопроводов малых диаметров из стали 20 // Сварочное производство. 1993. № 11-12. С. 9-12.
  9. Корольков П.М. Работоспособность сварных соединений тонкостенных трубопроводов из стали 20 в коррозионной среде // Сварочное производство. 1991. № 4. С. 13-15.
  10. Паршуков Л.И. Исследование сварных швов мартенситостареющей стали типа 03Н18К9М5Т после локальной термоциклической обработки / Л.И.Паршуков, Ф.З.Гильмутдинов, А.А.Скупов // Труды ВИАМ. 2017. №7 (55). С. 55-60.
  11. Andersen P. Slow strein rate Stress Corrosion Testing at Elevated Temperatures and High Pressures / P.Andersen, D.Duguette // Corrosion Science. 1980. Vol. 20. P. 211-223.
  12. Formation of structure in the heat-affected zone and properties of welded joinrs of pipe steels of strength classes X80 and X90 / A.Yu.Ivanov, R.V.Sulyagin, V.V.Orlov, F.F.Kruglova // Met. Science. 2012. Vol. 53. № 11. P. 560-566.
  13. Goli-Oglu E.A. Influence of heat treatment after welding on the microhardness of steel joints in marine platforms // Steel in Translation. 2016. Vol. 46. Iss. 5. P. 361-363.
  14. Mulyukov R.R. Current status of research and development on superplasticity at the Institute for Metals Superplasticity Problems / R.R.Mulyukov, A.A.Nazarov, R.M.Imayev // Mater. Sci. Forum. 2013. Vol. 735. P. 403-408.
  15. Taniguchi G. Effects of post weld heat treatment (PWHT) temperature of mechanical properties of weld metals for high-Cr ferritic heat -resistant steel / G.Taniguchi, K.Yamashita // Kobelko Technology Review. 2013. № 32. P. 33-39.
  16. Tavares S.S. Effects of post weld heat treatments on the microstructure and mechanical properties of dissimilar weld of supermartensitic Stainless steel / S.S.Tavares, C.R.Rodriges, J.M.Pardal // Materials Reseach. 2014. Vol. 17(5). P. 1336-1343.
Access statistics
Abstract Views
846
Full-Text Views
172
Cited
Scopus:
13
Crossref:
0
Cited By
1. Development of the Kinetic Equation of the Groove Corrosion Process for Predicting the Residual Life of Oil-Field Pipelines. Energies. October 2023, Vol. 16, DOI: 10.3390/en16207067 [Scopus]
2. The role of multi-phase metal content in corrosion and premature failure mitigation of steel equipment in oil refineries. Рart 2. CIS Iron and Steel Review. 2023, Vol. 26, P. 122-128. DOI: 10.17580/cisisr.2023.02.20 [Scopus]
3. Features of the distribution of magnetic induction during magnetic-abrasive processing of synchronizers made of structural alloy steel. Chernye Metally. 2023, Vol. 2023, P. 79-85. DOI: 10.17580/chm.2023.07.10 [Scopus] (cited: 5)
4. The role of multi-phase metal content in corrosion and premature failure mitigation of steel equipment in oil refineries. Part 1. CIS Iron and Steel Review. 2023, Vol. 25, P. 90-96. DOI: 10.17580/cisisr.2023.01.15 [Scopus] (cited: 1)
5. Improving the method for assessment of bending stresses in the wall of an underground pipeline. Journal of Mining Institute. 2022, Vol. 257, P. 744-754. DOI: 10.31897/PMI.2022.64 [Scopus] (cited: 6)
6. Technological basis for the process of application of diffusion coatings in liquid metal melts with use of electric furnaces with air atmosphere. CIS Iron and Steel Review. 2022, Vol. 23, P. 61-66. DOI: 10.17580/cisisr.2022.01.12 [Scopus] (cited: 1)
7. Influence of heat treatment on the microstructure of steel coils of a heating tube furnace. Journal of Mining Institute. 20 September 2021, Vol. 249, P. 393-400. DOI: 10.31897/PMI.2021.3.8 [Scopus] (cited: 19)
8. Methodology for testing pipeline steels for resistance to grooving corrosion. Journal of Mining Institute. 2021, Vol. 252, P. 854-860. DOI: 10.31897/PMI.2021.6.7 [Scopus] (cited: 18)
9. A surface structure formation of stainless steel using a laser. Materials Science Forum. 2021, Vol. 1022 MSF, P. 112-118. DOI: 10.4028/www.scientific.net/MSF.1022.112 [Scopus] (cited: 8)
10. Understanding the structure and properties of the heat affected zone in welds and model specimens of high-strength low-alloy steels after simulated heat cycles. CIS Iron and Steel Review. 2020, Vol. 19, P. 60-65. DOI: 10.17580/cisisr.2020.01.12 [Scopus] (cited: 11)
11. The choice of an optimal technological process for mechanical treatment of machine components based on structural models. IOP Conference Series: Earth and Environmental Science. 14 November 2019, Vol. 378, DOI: 10.1088/1755-1315/378/1/012070 [Scopus] (cited: 2)
12. Structural analysis of technological processes with multivariate machining operations. IOP Conference Series: Materials Science and Engineering. 2019, Vol. 560, DOI: 10.1088/1757-899X/560/1/012041 [Scopus]
13. Intelligent systems for monitoring and controlling chip formation when cutting difficult-to-machine materials. IOP Conference Series: Materials Science and Engineering. 2019, Vol. 560, DOI: 10.1088/1757-899X/560/1/012028 [Scopus] (cited: 1)
Article Menu
Influence of post-welding processing on continuous corrosion rate and microstructure of welded joints of steel 20 and 30KHGSA

Similar articles

Evaluation of signal properties when searching for cavities in soil under concrete slabs by radio detection stations of subsurface investigation
2018 G. V. Rudianov, E. I. Krapivskii, S. M. Danilev
A method for controlling siltation of water catchments of district drainage systems of kimberlite mines
2018 N. P. Ovchinnikov
Special features of a structure of technical operations for peat excavation with stage dewatering
2018 E. A. Kremcheev
About the role of hydrafed calcium carboaluminates in improving the technology of complex processing of nephelines
2018 V. M. Sizyakov, V. N. Brichkin
Influence of mining-geological conditions and technogenic factors on blastholes stability during open mining of apatite-nepheline ores
2018 M. N. Overchenko, S. A. Tolstunov, S. P. Mozer
Complex petrophysical correction in the adaptation of geological hydrodynamic models (on the example of Visean pool of Gondyrev oil field)
2018 V. A. Repina, V. I. Galkin, S. V. Galkin