Search
Search Results
-
Physical Simulation Modeling as a Tool for Predicting Mechanical Properties of Large-Diameter Pipes: A Review
AbstractThe review presents analysis of literature sources on the problem of predicting mechanical properties of large-diameter pipes based on the...
-
Investigation of Two Laser Heat Treatment Strategies for Local Softening of a Sheet in Age-Hardening Aluminum Alloy by Means of Physical Simulation
Car manufacturers increasingly aid high-strength aluminum alloys for their advantageous weight-to-strength ratio, but their limited formability poses...
-
Modeling and Simulation of Multi-phase and Multi-physical Fields for Slab Continuous Casting Mold Under Ruler Electromagnetic Braking
In this study, we developed a numerical model of a slab continuous casting mold coupled with multi-phase and multi-physical fields, known as...
-
Numerical and Physical Simulation of Flux Entrainment Mechanism in Mechanical Stirring Processes
The entrainment mechanism of flux layer into a melt bath during its mechanical stirring was clarified in this study through numerical simulation with...
-
Physical Simulation of Sheet Billet Formation under Ingotless Metal Rolling
AbstractThe physical simulation of sheet billet formation in the course of ingotless metal rolling has been performed. Parameters for controlling the...
-
Influence of welding thermal cycles on properties of TMCP and Q&T steels evaluated by thermo-physical simulation
The welding process represents an unintentional, but unavoidable, heat treatment in the form of soft annealing or tempering, but also hardening...
-
Physical Simulation of Mold Level Fluctuation Characteristics
Mold level fluctuations have an essential impact on slab quality control. In this study, the wave height and frequency of the fluctuations were...
-
Using Physical Simulation for Assessing the Effect of Teeming Method and Rate on the Core Zone Formation in Large Ingots
AbstractThe effect of teeming method and teeming rate exerted on the solidification and formation of core zone in large ingots have been studied. The...
-
Tactile friction and perception of UV-curable coatings and their relation to physical surface parameters and contact mechanic simulation
In this paper, the results of new investigations on the relationship between physical surface parameters of polymer-based coatings, skin hydration...
-
Numerical Simulation of Stress Field in Physical Tempering Process of Flat Soda Lime Silica Glass
Based on the analysis of different theory for glass tempering process, the “structural theory” with stress relaxation and structural relaxation...
-
Cascade Control Method for Conducting Hybrid Simulation with Stiff Specimens
Hybrid simulation is an innovative method that combines an analysis model of a structural system with physical tests of one or more substructures....
-
A Review of the Accuracy of Direct Numerical Simulation Tools for the Simulation of Non-Spherical Bubble Collapses
Numerical methods for the simulation of cavitation processes have been developed for more than 50 years. The rich variety of physical phenomena...
-
Determination of Thermal Properties of Foundry Green Sand to Improve Numerical Simulation
Numerical simulation of the foundry process, aimed at reducing costs and production lead times, directly impacts the responsiveness and...
-
Physical Regime Sensitivity
This work presents a novel sensitivity approach that quantifies sensitivity to regimes of a model’s state variables rather than constitutive model...
-
Enhancing Realism in Cloth Simulation: A Review of Methods and Issues
In the pursuit of high-quality clothed model animations, the accurate assessment of simulated garment and fabric properties is important. This task... -
A physical minimum dissipative energy-based damage model for crack growth simulation of geoengineering structures
A damage model and simulation method are developed to simulate fracture process of geoengineering structures by using the continuum damage mechanics....
-
Investigation of Filament Formation and Surface Perturbation in Nanoscale-Y2O3 Memristor: A Physical Modeling Approach
A comprehensive physical electro-thermal modeling approach is explored to investigate the intricate mechanisms underlying filament formation and the...
-
Comparative study about the results of HAZ physical simulations on different high-strength steel grades
With continuous improvements, structural steels are available in even higher strength grades above 1000 MPa yield strength. As the great majority of...
-
Coupled Thermal Solidification Process Simulation of Sapphire Growth
Thermal distribution during the sapphire growth process determines to a great extent the thermal stresses and dislocation density in sapphire. In...
-
Hierarchically theoretical calculation and 3D reconstruction simulation of effective thermal conductivity for MTMS-based silica aerogels
Compared with nanoscale aerogels, the thermal conductivity of MTMS silica aerogel (MSA) is relatively large due to its micron-sized pore size, which...