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Statements

Subject Item
dbr:Moving_Heat_Source_Model_for_Thin_Plates
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Moving heat source model for thin plates
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Moving heat sources is a topic in transient heat transfer that is applicable to engineering problems, particularly welding engineering. In the early 20th Century, welding engineers began studying moving heat sources, both empirically and theoretically. Depending on welding parameters, plate geometry and material properties, the solution takes three different forms: , intermediate, or thin plate. The temperature distribution and cooling rates can be determined from theoretical solutions to the problem, allowing engineers to better understand the consequences of heat sources on weldability and end item performance.
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n6:Moving_coordinates.png dbr:Submerged_arc_welding dbr:Gas_tungsten_arc_welding dbr:Heat_Flow_Due_to_a_Moving_Heat_Source_(Semi-Infinite_Plate) dbc:Heat_transfer dbr:Austenitic_stainless_steel dbr:Oxy-fuel_welding_and_cutting dbr:Heat-affected_zone dbr:Albert_Portevin dbr:Moving_Heat_Source_Model_for_Semi-infinite_Plate n6:BesselK_plot.svg n6:Thinplate.webm dbr:Heat_transfer dbr:Weldability dbr:Finite_element_method dbr:SMAW_(welding) dbr:Modified_Bessel_function dbr:Gaussian_function dbr:Electron-beam_welding
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Moving heat sources is a topic in transient heat transfer that is applicable to engineering problems, particularly welding engineering. In the early 20th Century, welding engineers began studying moving heat sources, both empirically and theoretically. Depending on welding parameters, plate geometry and material properties, the solution takes three different forms: , intermediate, or thin plate. The temperature distribution and cooling rates can be determined from theoretical solutions to the problem, allowing engineers to better understand the consequences of heat sources on weldability and end item performance.
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