Download scientific diagram | Temperature-dependent properties of stainless steel 316L. (a) density [37], (b) specific heat capacity [34], (c) thermal conductivity [34], (d) electrical resistivity [38] (e) surface tension [39] and (f) dynamic viscosity [37]. from publication: The influence of laser characteristics on internal flow behaviour in laser melting of metallic substrates | The absorptivity of a material is a major uncertainty in numerical simulations of laser welding and additive manufacturing, and its value is often calibrated through trial-and-error exercises. This adversely affects the capability of numerical simulations when predicting the | Laser, Freezing and Numerical Simulation | ResearchGate, the professional network for scientists.
Temperature-dependent material properties of stainless steel 316L
Marcel HERMANS, Delft University of Technology, Delft, TU, Department of Materials Science and Engineering (MSE)
Tensile test with different strain rates -viscous effect.
Variation of specific heat capacity with the temperature for 316L
Comparison of the melt-pool shapes obtained from the present
Temperature dependence of thermal conductivity of stainless
Composition equivalents of stainless steels understood via gamma stabilizing efficiency
Average composition changes of Ti 2 O 3 -Cr 2 O 3 -Al 2 O 3 inclusions
Measurements of thermophysical properties of solid and liquid NIST SRM 316L stainless steel
L and H and Standard Grades of Stainless Steels
Schematic representation of the surface layer [18].
Cryogenic toughness in a low-cost austenitic steel
Temperature-dependent SS316 yield and tensile strength data. 35,38
