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Simulation and Experimental Based Analysis of the Laser Beam Welding of DP Steels
摘要: In this paper, heat affected zone characteristics of DP1000 steels was investigated during diode laser beam welding (LBW). A butt-welded joint of specimen in dimension of 300 x 150 mm each (according to EN15614-11:2002) with 1 mm thickness is used for the experimental purpose. The welding thermal cycle and the cooling circumstances in the HAZ was determined by real experiment and the physical simulation. A Gleeble 3500 thermo-physical simulator was used to physically simulate the coarse grain heat affected zone (CGHAZ) on the base material specimens by the utilization of the thermal cycles for t8/5 =2.5 s. The results of the physical simulation were validated by real welding experiments. The properties of the simulated and the real HAZ was examined by optical microscopic, scanning electron microscope and hardness tests.
关键词: Gleeble 3500 physical simulator,t8/5 cooling time,Laser beam welding (LBW),dual phase (DP) steel,Heat affected zone (HAZ) characterization
更新于2025-09-19 17:13:59
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Dissipative structure of interaction of laser radiation with construction steel 45
摘要: The article presents the results of a quantitative description of the structure of dissipative structures formed during the interaction of carbon steel 45 with laser radiation, revealing the mechanism of their functioning in a no equilibrium process of interaction of a material with concentrated energy ?ow.
关键词: Heat-affected zone (HAZ),Molten phase zone (MPZ),Solid-phase hardening zone (SPHZ),Microstructures,Tempering zone (TZ)
更新于2025-09-16 10:30:52
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Optimization of process parameter of Laser beam machining of high strength steels: a review
摘要: Metal cutting forms the basis of industry its relevance among products of everyday life due its high strength application in structural, aviation, aerospace, military, naval purpose etc. Based on recent study it is found that many high strength steel are cut using lasers and it has given exceptional result as compared to other Non conventional machining process it is important to know how the cutting is affecting the material properties and which parameters are responsible for such change. The various parameters and their effects are shown in the given study which is analyzed by different researchers along the course of time. The material and thickness and different optimization techniques by different researchers is also shown.
关键词: Macro structural changes,CO2,Control parameters,laser beam cutting (LBC),Heat Affected Zone (HAZ),Micro
更新于2025-09-12 10:27:22
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Coaxial waterjet-assisted laser drilling of film cooling holes in turbine blades
摘要: Film cooling holes (FCHs) of nickel-based single crystal turbine blades were drilled by 532 nm Nd:YVO4 nanosecond laser in coaxial waterjet-assisted environment. Microstructure of the side wall of the FCHs was mainly investigated by means of transmission electron microscopy. The average thickness of heat affected zone (HAZ) around FCHs decreases with increasing of water flow rate. The main phase within HAZ evolves from β-NiAl to β-NiAl + γ-Ni with the increase in the water flow rate. Some γ-Ni particles in the HAZ twined along (111) plane. A small portion of the FCHs are free of HAZ when drilled by coaxial waterjet-assisted laser drilling at a laminar water flow rate ≥ 3.1 m/s. There are no processing-induced defects including HAZ, microcrack, and phase transformation around the FCHs when drilled at the water flow rate ≥ 5.1 m/s. The FCHs with high surface quality can be drilled by the coaxial waterjet-assisted laser drilling. Finally, effects of fluid water on drilling quality of the FCHs were discussed.
关键词: turbine blades,film cooling holes,Coaxial waterjet-assisted laser drilling,heat affected zone (HAZ),transmission electron microscopy (TEM)
更新于2025-09-11 14:15:04