| MAP_STEEL_MUCG46B |
PROGRAM:MUCG46 modified to account for elastic and plastic strain, and grain refinement, on the martensite-start temperature. |
| MAP_STEEL_PEARLITE |
PROGRAM:A complete theory for pearlite growth in binary steel. |
|
MAP_STEEL_ANDROID_MS |
PROGRAM:An Android APP that allows you to use your mobile telephone or tablet to calculate the martensite (α' and ε) and bainite-start temperatures, Ae1 and Ae3 temperatures of low alloy steels containing Mn, Si, Ni, Cr, Mo, Cu, V, Nb, W, Co and C. |
| MAP_NEURAL_EPSILON_MS |
PROGRAM:Prediction of the austenite to epsilon martensite-start temperature. |
| MAP_TTTtoCCTlinear |
PROGRAM:Converts an input TTT (time-temperature-transformation) curve into a CCT (continuous-cooling-transformation) curve using Scheil's additive reaction rule, assuming a constant cooling rate. |
| MAP_STEEL_BORON |
PROGRAM:Claculation of soluble boron concentration in steels containing aluminium, nitrogen and titanium. |
| MAP_STEEL_ELONGATION_IRRADIATED |
PROGRAM:Allows prediction of the elongation of irradiated steels, as a function of the chemical composition, heat treatment and irradiation and test parameters. |
| MAP_STEEL_TOPOLOGY2 |
PROGRAM:Calculates the changes in grain boundary area and grain edge length per unit volume, for a non-uniform distribution of space-filling grains, as a function of arbitrary homogeneous deformations. |
| MAP_STEEL_FERRITE_TEXTURE |
PROGRAM:Calculates probability of an allotriomorph of ferrite which nucleates at an austenite grain boundary having a good-fit orientation relationship with both of the adjacent austenite grain, and the resulting crystallographic texture. |
| MAP_STEEL_HOTROLLED_UTS |
PROGRAM:To calculate the domain of steels and processing which can lead to the same ultimate tensile strength in hot-rolled steels. |
| MAP_STEEL_HOTROLLED_EL |
PROGRAM:To calculate the domain of steels and processing which can lead to the same elongation in hot-rolled steels. |
| MAP_STEEL_HOTROLLED_UTS_EL |
PROGRAM:To calculate the domain of steels and processing which can lead to the same combination of ultimate tensile strength and elongation in hot-rolled steels. |
| MAP_AL_HARDNESS |
PROGRAM:To predict the hardness of 356 and 319 Al cast alloys as a function of chemical composition and heat treatment (artificial aging T6). |
| MAP_AL_ELONGATION |
PROGRAM:Elongation of wrought aluminium alloys as a function of composition, tempering and service temperature. |
| MAP_AL_YS |
PROGRAM:Yield strength of wrought aluminium alloys as a function of composition, tempering and service temperature. |
| MAP_AL_TS |
PROGRAM:Ultimate tensile strength of wrought aluminium alloys as a function of composition, tempering and service temperature. |
| MAP_STEEL_THERMAL |
PROGRAM:Model for thermal conductivity of steel. |
| MAP_DATA_THERMAL |
DATA:Thermal conductivity data for steel. |
| MAP_STEEL_BAKE_HARDENING |
PROGRAM:To estimate the bake hardening tendency in low-carbon steels as a function of chemical composition and processing. |
| MAP_STEEL_TWIP |
PROGRAM:A program for the calculation of texture change due to twinning and true strain from twinning, as a function of twinning volume fraction, texture type and its intensity. |
| MAP_STEEL_TRIP |
PROGRAM:To predict the carbon content in retained austenite and volume fraction of retained austenite in cold-rolled TRIP-assisted steel as a function of the chemical composition and the heat treatment parameters. |
| MAP_STEEL_IRRADIATED_CHARPY |
PROGRAM:To estimate the change in ductile-to-brittle transition temperature under Charpy testing of irradiated reduced activation ferritic/martensitic steel as a function of irradiation conditions. |
| MAP_STEEL_DIFFRACT_FERRITE |
PROGRAM:Calculation of Debye X-ray diffraction rings due to stress-induced transformation of polycrystalline austenite. The sample may be textured. |
| MAP_STEEL_DIFFRACT_AUSTENITE |
PROGRAM:Calculation of Debye X-ray diffraction rings for polycrystalline austenite. The sample may be textured. |
| MAP_STEEL_TRANS_PLASTICITY |
PROGRAM:Calculation of transformation strain and crystallographic orientation of the 24 variants of martensite or bainite that form in a singel grain of austenite in an arbitrary orientation. |
| MAP_STEEL_TEXTURE3 |
PROGRAM:Calculation of habit plane, shape deformation and orientation relationship between austenite and martensite or bainite, as a function of the correspondence matrix and the lattice invariant deformation. |
| MAP_STEEL_TEXTURE2 |
PROGRAM:To produce a non-random, crystallographically textured distribution of austenite grains. |
| MAP_STEEL_HOT_STRENGTH |
PROGRAM:0.2 percent proof strength of creep-resistant ferritic steels as a function of temperature, chemical composition and heat treatment. |
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