MAGMA5 - optimized reality
MAGMA5 5.2 introduces several new simulation capabilities: new process modes for permanent mold, low pressure sand and low pressure die casting, as well both hot-chamber and cold-chamber die casting allow for detailed process-specific definitions. The software also supports process design by controlling process parameters during a simulation run. For gravity casters, process modules for DISAMATIC and investment casting are now available.
At GIFA, MAGMA will also present its newest developments for the quantitative prediction of as-cast and heat treated local microstructures and properties in aluminum, iron and steel castings. MAGMA5 simulates sand and reoxidation inclusions during mold filling and predicts defects related to molding materials. MAGMAnonferrous calculates the final microstructure and mechanical properties for aluminum alloys considering the metallurgy, inoculation, and hydrogen content of the melt. MAGMAiron predicts local microstructures for iron materials from graphite growth through to the distribution of phases making up the matrix. MAGMAsteel calculates macrosegregation in steel castings and the local microstructure resulting from heat treatment.
The stress module MAGMAstress for the first time offers the option to calculate thermally induced casting stresses in permanent molds for all manufacturing steps, including heat treatment and finishing, in order to predict casting crack problems and distortion. The simulated distortion results can be evaluated just as on a coordinate measuring machine and compared directly with real measurements. For the first time, the new module MAGMAdielife facilitates the evaluation of the effects of tooling design and thermal stresses on the durability of permanent molds.
MAGMA Core+Mold – transparency in core production
With MAGMA C+M, MAGMA introduces an integrated tool for the simulation of core production processes. MAGMA C+M simulates core shooting, blowing, and hardening of organic and inorganic cores. Processes where binder hardening is driven by a catalyst gas as well as core production with tempered core boxes are supported. MAGMA C+M considers all aspects of core production starting from the core shooter, in order to calculate the flow of the air-sand mixture based on the real shot parameters. An integrated database provides the ability to specify the characteristics of the sand and the binder system as well as core box vents and blow tubes. The program simulates gassing, purging and the curing reaction of gas-hardened cores. The design and control of core box tempering for heat-cured cores (hotbox, croning, inorganic) is effectively supported by modeling of heating cartridges and oil channels. For inorganic cores, MAGMA C+M calculates the drying of the core in the heated core box as well as due to transport of water vapor by hot air during gassing. MAGMA C+M takes advantage of all the functionality of MAGMA5 and is available as an add-on module to MAGMA5 or as a stand-alone product.