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Effect of storage conditions of rutile flux cored welding wires on properties of welds

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The influence of storage locations of two grades of rutile flux cored welding wires on their surface condition and the strength of the welds made with them were studied. Wires were stored in real urban conditions (Gdańsk and Katowice) for 1 month, simultaneously recording changes in conditions: temperature and relative humidity of the environment. Visual tests of wires in the delivered and stored condition as well as visual and tensile strength tests of welds made with them were carried out. It was found that the surface of the wires underwent more intense degradation (atmospheric corrosion) during storage in Katowice than in Gdańsk. Significant difference in tensile strength was observed only for padding welds made using Gdańsk stored wires. The lowest recorded tensile strength value was not lower than the standard requirements for the wires.
Rocznik
Strony
46--56
Opis fizyczny
Bibliogr. 40 poz., tab., rys.
Twórcy
  • Gdańsk University of Technology, Faculty of Mechanical Engineering, 80-233 Gdańsk, Narutowicza 11/12, Poland
Bibliografia
  • 1 . Wang K., Lu Q., Yi Y., Yi J., Niu B., Jiang Z., Ma J.: Effects of welding heat input on microstructure and electrochemical behavior of flux-cored arc-welded Q690 HSLA steel. Advances in Materials Science and Engineering (2018) 7484025.
  • 2 . Ferreira M.L.R., Silva C.A.F.D., Pardal J.M., Tavares S.S.M.: Influence of shielding gas in FCAW pro-cess welding of UNS S31803 with E2209-T1/4 wire. Soldagem & Inspeção 23(3) (2018) 309-325.
  • 3 . Rodrigues L.A., Borges D.J., Baia P.E., Freitas E.N., Braga E.M.: Welding procedures influence analysis on the residual stress distribution and distortion of stiffened panels welded via robotized FCAW. Thin-Walled Structures 141 (2019) 175-183.
  • 4 . Urbański T., Graczyk T., Taraska M., Iwańkowicz R.: Assessment of technological usefulness of panel production line in shipbuilding process. Polish Maritime Research 25(s1) (2018) 134-144.
  • 5 . de Sousa Lins A., de Souza L.F.G., Fonseca M.C.: Characterization of mechanical properties and residual stress in API 5L X80 steel welded joints. Journal of Materials Engineering and Performance 27(1) (2018) 124-137.
  • 6 . Mu W., Li Y., Cai Y., Wang M., Hua X.: The cryogenic low-cycle fatigue performance of 9% Ni steel joint made by flux cored arc welding. Materials Characterization 151 (2019) 27-37.
  • 7 . Arun D., Ramkumar K.D., Vimala R.: Multi-pass arc welding techniques of 12 mm thick super-duplex stainless steel. Journal of Materials Processing Technology 271 (2019) 126-143.
  • 8 . Winczek J., Gucwa M., Mičian M., Koňár R., Parzych S.: The evaluation of the wear mechanism of high-carbon hardfacing layers. Archives of Metallurgy and Materials 64(3) (2019) 1111-1115.
  • 9 . Świerczyńska A., Fydrych D., Rogalski G.: Diffusible hydrogen management in underwater wet self-shielded flux cored arc welding. International Journal of Hydrogen Energy 42(38) (2017) 24532-24540.
  • 10 . Yang Q., Han Y., Jia C., Wu J., Dong S., Wu C.: Impeding effect of bubbles on metal transfer in under-water wet FCAW. Journal of Manufacturing Processes 45 (2019) 682-689.
  • 11 . Wang J., Sun Q., Pan Z., Yang J., Feng J.: Effects of welding speed on bubble dynamics and process stability in mechanical constraint-assisted underwater wet welding of steel sheets. Journal of Materials Pro-cessing Technology 264 (2019) 389-401.
  • 12 . Guo N., Zhang X., Xu C., Chen H., Fu Y., Cheng Q.: Effect of parameters change on the weld appear-ance in stainless steel underwater wet welding with flux-cored wire. Metals 9(9) (2019) 951.
  • 13 . Pitrun M., Nolan D.U., Dunne D.: Diffusible hydrogen content in rutile flux-cored arc welds as a func-tion of the welding parameters. Welding in the World 48(1-2) (2004) 2-13.
  • 14 . Schaupp T., Rhode M., Kannengiesser T.: Influence of welding parameters on diffusible hydrogen con-tent in high-strength steel welds using modified spray arc process. Welding in the World 62(1) (2018) 9-18.
  • 15 . Bracarense A.Q., Souza R., Costa M.C.M., Faria P.E., Liu S.: Welding current effect on diffusible hy-drogen content in flux cored arc weld metal. Journal of the Brazilian Society of Mechanical Sciences 24(4) (2002) 278-285.
  • 16 . Lee M., Cho K., Kim Y., Kang N.: Effect of martensite on cold cracking in 600-MPa grade flux-cored arc weld metals using the Y-groove test. Welding in the World 59(5) (2015) 647-654.
  • 17 . Alipooramirabad H., Paradowska A., Ghomashchi R., Reid M.: Investigating the effects of welding pro-cess on residual stresses, microstructure and mechanical properties in HSLA steel welds. Journal of Manu-facturing Processes 28 (2017) 70-81.
  • 18 . Harwig D.D., Longenecker D.P., Cruz J.H.: Effects of welding parameters and electrode atmospheric exposure on the diffusible hydrogen content of gas shielded flux cored arc welds. Welding Journal 78 (1999) 314-321.
  • 19 . Fydrych D., Świerczyńska A., Tomków J.: Diffusible hydrogen control in flux cored arc welding process. Key Engineering Materials 597 (2014) 171-178.
  • 20 . Świerczyńska A., Fydrych D., Landowski M., Rogalski G., Łabanowski J.: Hydrogen embrittlement of X2CrNiMoCuN25-6-3 super duplex stainless steel welded joints under cathodic protection. Construction and Building Materials 238 (2020) 117697.
  • 21 . Świerczyńska A., Fydrych D., Łabanowski J.: The effect of welding conditions on diffusible hydrogen content in deposited metal. Solid State Phenomena 183 (2012) 193-200.
  • 22 . Fydrych D., Łabanowski J.: An experimental study of high-hydrogen welding processes. Revista de Metalurgia 51(4) (2015) 10-3989.
  • 23 . Reisgen U., Willms K., Wieland S.: Influence of storage conditions on aluminum 4043A welding wires. Welding Journal 96(6) (2017) 220-227.
  • 24 . Tomków J., Fydrych D., Rogalski G., Łabanowski J.: Effect of the welding environment and storage time of electrodes on the diffusible hydrogen content in deposited metal. Revista de Metalurgia 55 (2019) e140.
  • 25 . Barrera O., Bombac D., Chen Y., Daff T.D., Galindo-Nava E., Gong P., Liverani C.: Understanding and mitigating hydrogen embrittlement of steels: a review of experimental, modelling and design progress from atomistic to continuum. Journal of Materials Science 53(9) (2018) 6251-6290.
  • 26 . Wasim M., Djukic M.B.: Hydrogen embrittlement of low carbon structural steel at macro-, micro-and nano-levels. International Journal of Hydrogen Energy (2020) (In press).
  • 27 . Fu H., Wang W., Chen X., Pia G., Li J.: Fractal and multifractal analysis of fracture surfaces caused by hydrogen embrittlement in high-Mn twinning/transformation-induced plasticity steels. Applied Surface Sci-ence 470 (2019) 870-881.
  • 28 . Li L., Song B., Cai Z., Liu Z., Cui X.: Effect of vanadium content on hydrogen diffusion behaviors and hydrogen induced ductility loss of X80 pipeline steel. Materials Science and Engineering: A 742 (2019) 712-721.
  • 29 . Xia D.H., Song S., Qin Z., Hu W., Behnamian Y.: Electrochemical probes and sensors designed for time-dependent atmospheric corrosion monitoring: fundamentals, progress, and challenges. Journal of The Electrochemical Society 167(3) (2020) 037513.
  • 30 . Morcillo M., Díaz I., Cano H., Chico B., De la Fuente D.: Atmospheric corrosion of weathering steels. Overview for engineers. Part I: Basic concepts. Construction and Building Materials 213 (2019) 723-737.
  • 31 . Li X., Wang X., Wang L., Sun Y., Zhang B., Li H., ..., Hou B.: Corrosion behavior of Q235 steel in atmospheres containing SO2 and NaCl. Journal of Materials Engineering and Performance 28(4) (2019) 2327-2334.
  • 32 . Łatka L., Chicot D., Cattini A., Pawłowski L., Ambroziak A.: Modeling of elastic modulus and hardness determination by indentation of porous yttria stabilized zirconia coatings. Surface and Coatings Technology 220 (2013) 131-139.
  • 33 . Chmielewski T., Siwek P., Chmielewski M., Piątkowska A., Grabias A., Golański D.: Structure and selected properties of arc sprayed coatings containing in-situ fabricated Fe-Al intermetallic phases. Metals 8(12) (2018) 1059.
  • 34 . Szala M., Walczak, M., Pasierbiewicz K., Kamiński, M.: Cavitation erosion and sliding wear mecha-nisms of AlTiN and TiAlN films deposited on stainless steel Substrate. Coatings 9(5) (2019) 340.
  • 35 . Winnicki M., Piwowarczyk T., Małachowska A.: General description of cold sprayed coatings formation and of their properties. Bulletin of the Polish Academy of Sciences. Technical Sciences 66(3) (2018) 301-310.
  • 36 . Deilami K., Kamruzzaman M., Liu Y.: Urban heat island effect: A systematic review of spatio-temporal factors, data, methods, and mitigation measures. International Journal of Applied Earth Observation and Geoinformation 67 (2018) 30-42.
  • 37 . Zhao C., Jensen J., Weng Q., Weaver R.: A geographically weighted regression analysis of the underly-ing factors related to the surface urban heat island phenomenon. Remote Sensing 10(9) (2018) 1428.
  • 38 . Theeuwes N.E., Steeneveld G.J., Ronda R.J., Holtslag A.A.: A diagnostic equation for the daily maxi-mum urban heat island effect for cities in northwestern Europe. International Journal of Climatology 37(1) (2017) 443-454.
  • 39 . Guo N., Xu C., Du Y., Chen H., Fu Y., Feng J.: Influence of calcium fluoride on underwater wet weld-ing process stability. Welding in the World 63(1) (2019) 107-116.
  • 40 . Ma C., Wang Z., Behnamian Y., Gao Z., Wu Z., Qin Z., Xia D.H.: Measuring atmospheric corrosion with electrochemical noise: A review of contemporary methods. Measurement 138 (2019) 54-79.
Uwagi
1. This work [publication] was supported by National Science Center (Grant Number: 2018/02/X/ST8/01627).
2. Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c4e0e7d3-4e86-4f3d-a365-8da4c3cc249d
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