Engineering simulation for casting feeder, solidification and process parameters.
It provides a quick preliminary evaluation of solidification time, V/A modulus, shrinkage risk and minimum feeder requirement for a casting.
The calculation uses the Chvorinov approach. Final casting design must be verified with actual mold, gating and feeder geometry, alloy behavior and process trials.
Engineering simulation for casting feeder, solidification and process parameters.
Part geometry, alloy family, mould condition, feeder design and cooling behaviour are evaluated together.
Feeder location, modulus logic, hot-spot risk and directional solidification should be interpreted together to reduce casting defects.
Pouring temperature, mould temperature, fluidity, gating-feeding layout and cooling rate influence the result.
For real production decisions, simulation results must be checked with casting trials, NDT, macro/micro examination and process validation.
Create educational and engineering-oriented visuals for this tool.
Create educational visuals explaining casting process, mould filling, feeder effect and solidification direction.
Molten metal, runner, feeder, mould cavity, hot spot, solidification front and quality-control callouts may appear.
The AI visual is for process explanation; it does not replace real casting simulation or quality evidence.
Add alloy type, part geometry, mould type and desired defect/quality focus to customize the prompt.
Professional educational visual for Metalurjist.com.tr: casting simulation, molten metal filling a mould, runner and feeder system, solidification front, hot spot and shrinkage risk, quality-control callouts, dark navy and turquoise scientific UI style, clean technical illustration, high detail, no watermark, no fake text.