Modules
Shape Casting
In SUTCAST, several algorithms are provided to simulate shape casting processes with maximum accuracy
Steel Casting
Casting of alloy steels can be simulated with SUTCAST covering a wide range of compositions
Iron Casting
Cast iron parts can be simulated with a high precision thanks to SUTCAST simulation algorithms and database
Aluminium Casting
SUTCAST can predict microstructure, mechanical properties, gas-shrinkage microporosities of aluminum alloys thanks to its effective modules linked to a rich database
Low Pressure Die Casting
SUTCAST involves a specific module for low pressure die casting with several features: Possibility of introducing various process cycles
Permanent Mold Casting
SUTCAST solver is designed to perform required calculations working with all affecting parameters such as high heat transfer rates due to metallic molds, coatings, mold pre-heating, etc
Disamatic Casting
SUTCAST comes with advanced solvers for modeling such processes
Utilities
Macroshrinkage
SUTCAST can predict locations with the highest probability of macroshrinkage which are presented in high quality 3D images
Microshrinkage (SUT Criterion)
The location and distribution of microporosities are well predicted using SUTCAST sophisticated models
Microshrinkage (Niyama Criterion)
In SUTCAST, algorithms are designed to predict this defect with maximum accuracy based on Niyama criterion
Mechanical Properties
SUTCAST is equipped with advanced modules for prediction of mechanical properties of cast irons and various families of aluminum alloys
Microstructure Prediction
In SUTCAST R. 9.1 microstructure of cast aluminum parts can be predicted based on simulation results and real findings
Simulation Modulus
In SUTCAST, however, distribution of the modulus (determined based on modified Chvorniov equation) is presented graphically for the entire object
Turbulence Modeling
SUTCAST solves turbulence equations using very efficient algorithms developed by SUTCAST team
Hot Tears
SUTCAST can predict the possibility of formation of hot tears in cast parts which helps foundrymen reduce wastes before putting the plan into action
Filter Modeling
Proper design of filters is a task which can be done in SUTCAST using the filter tool of the software
Exothermic Materials
The effect of exothermic materials on casting design is simulated by SUTCAST and is reflected in reduced volume of Macroshrinkages inside the cast part
Vent Modeling
SUTCAST users can include venting system in their casting design and simulate it for maximized perfection
Particle Tracking
SUTCAST users can include venting system in their casting design and simulate it for maximized perfection
Post Filling
SUTCAST tracks these movements providing a better understanding of the phenomena occuring in the system