Microstructure and Properties of Hybrid Laser Arc Welded Joints ( Laser Beam-MAG ) in Thermo-Mechanical Control Processed S 700 MC Steel
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Sebastian Stano | rka | G Jacek | S. Stano | G. Jacek
[1] Jacek Górka,et al. Microstructure and properties of the high-temperature (HAZ) of thermo-mechanically treated S700MC high-yield-strength steel , 2016 .
[2] W. Piekarska,et al. Numerical Prediction Of Deformations In Laser Welded Sheets Made Of X5CrNi18-10 Steel , 2015 .
[3] Łukasz Konieczny,et al. Research on Influence of Fatigue Metal Damage of the Inner Race of Bearing on Vibration in Different Frequencies/ Badania Wpływu Uszkodzeń Na Skutek Zmeczenia Materiału Bieżni Wewnętrznej Łożyska Na Drgania W Różnych Częstotliwościach , 2014 .
[4] Steven R. Webber,et al. Fully integrated hybrid-laser welding control process , 2003 .
[5] Jacek Górka. Welding thermal cycle-triggered precipitation processes in steel S700MC subjected to the thermo-mechanical control processing , 2017 .
[6] Yasuaki Naito,et al. Keyhole behavior and liquid flow in molten pool during laser-arc hybrid welding , 2003, International Congress on Laser Advanced Materials Processing.
[7] Maciej Różański,et al. Effect of gas atmosphere on the non-metallic inclusions in laser-welded trip steel with Al and Si additions , 2016 .
[8] Ki-Tae Park,et al. Experimental and numerical investigations on residual stresses in a multi-pass butt-welded high strength SM570-TMCP steel plate , 2011 .
[9] Wojciech Jamrozik,et al. Thermographic Assessment of the HAZ Properties and Structure of Thermomechanically Treated Steel , 2017 .
[10] Jody Shaw,et al. Material Applications in ULSAB-AVC (Advanced Vehicle Concepts) , 2002 .
[11] K. Gołombek,et al. Diode Laser Surface Alloying of Armor Steel with Tungsten Carbide , 2017 .
[12] Hongshuang Di,et al. A comparative study of the microstructure and properties of 800 MPa microalloyed C-Mn steel welded joints by laser and gas metal arc welding , 2016 .
[13] Maciej Różański,et al. Twin-spot laser welding of advanced high-strength multiphase microstructure steel , 2017 .
[14] K. Ichikawa,et al. Progress in thermomechanical control of steel plates and their commercialization , 2012, Science and technology of advanced materials.
[15] Jacek Górka,et al. The structure and properties of filler metal-free laser beam welded joints in steel S700MC subjected to TMCP , 2016, Laser Technology Poland.
[16] Takahiro Murakami,et al. Effect of welding direction on weld bead formation in high power fiber laser and MAG arc hybrid welding , 2010 .
[17] Jan Piwnik,et al. Laser Welding of New Grade of Advanced High Strength Steel STRENX 1100 MC , 2017 .
[18] M. Opiela,et al. THERMODYNAMIC ANALYSIS OF THE PRECIPITATION OF CARBONITRIDES IN MICROALLOYED STEELS , 2015 .
[19] R.D.K. Misra,et al. Effect of heat input on microstructure and properties of hybrid fiber laser-arc weld joints of the 800 MPa hot-rolled Nb-Ti-Mo microalloyed steels , 2017 .
[20] Ki-Tae Park,et al. Evaluation of high strength TMCP steel weld for use in cold regions , 2012 .
[21] A. Grajcar,et al. Microstructure and Hardness Profiles of Bifocal Laser-Welded DP-HSLA Steel Overlap Joints , 2017, Journal of Materials Engineering and Performance.
[22] A. Grajcar. Thermodynamic analysis of precipitation processes in Nb–Ti-microalloyed Si–Al TRIP steel , 2014, Journal of Thermal Analysis and Calorimetry.
[23] Flemming Ove Olsen,et al. Comparison of plasma, metal inactive gas (MIG) and tungsten inactive gas (TIG) processes for laser hybrid welding , 2003 .
[24] M. Opiela. Elaboration of Thermomechanical Treatment Conditions of Ti-V and Ti-Nb-V Microalloyed Forging Steels , 2014 .
[25] Chitoshi Miki,et al. High strength and high performance steels and their use in bridge structures , 2002 .
[26] M. Banasik,et al. Spawanie hybrydowe laser + MAG elementów urządzeń dźwigowych wykonanych ze stali ulepszonej cieplnie S960QL , 2017 .