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Research on hot deformation behavior and constitutive model to predict flow stress of an annealed FeCrCuNi2Mn2 high-entropy alloy
Research on hot deformation behavior and constitutive model to predict flow stress of an annealed FeCrCuNi2Mn2 high-entropy alloy
Integration of Sentinel-1/2 and topographic attributes to predict the spatial distribution of soil texture fractions in some agricultural soils of western Iran
Integration of Sentinel-1/2 and topographic attributes to predict the spatial distribution of soil texture fractions in some agricultural soils of western Iran
Prediction and variability mapping of some physicochemical characteristics of calcareous topsoil in an arid region using Vis-SWNIR and NIR spectroscopy
Prediction and variability mapping of some physicochemical characteristics of calcareous topsoil in an arid region using Vis-SWNIR and NIR spectroscopy
Prediction and variability mapping of some physicochemical characteristics of calcareous topsoil in an arid region using Vis-SWNIR and NIR spectroscopy
Prediction and variability mapping of some physicochemical characteristics of calcareous topsoil in an arid region using Vis-SWNIR and NIR spectroscopy
"A Computational study on robust prediction of transition point over NACA0012 aerofoil surfaces from laminar to turbulent flows
A 3D thermal model to analyze the temperature changes of digits during cold stress and predict the danger of frostbite in human fingers
Prediction of the thickness loss and recovery of cut-pile carpets imposed to UV exposure and wear using polynomial regression method
MaxEnt modeling for predicting suitable habitats and identifying the effects of climate change on a threatened species Daphne mucronata in central Iran
MaxEnt modeling for predicting suitable habitats and identifying the effects of climate change on a threatened species Daphne mucronata in central Iran
Critical soil zinc deficiency concentration and tissue iron zinc ratio as diagnostic tool for prediction of zinc deficiency in corn
Furrow infiltration and roughness prediction for different furrow inflow hydrographs using a zero-inertia model with a multilevel calibration approach