CoreTech System Co., Ltd. (Moldex3D) was founded in 1995, it has provided the professional
plastic injection molding simulation solution “Moldex” series for the plastic injection
molding industry, and the current product “Moldex3D” is marketed worldwide.
Committed to providing the advanced technologies and solution for industrial demands, CoreTech has extended the worldwide sales and service network to provide local, immediate, and professional service. Nowadays, CoreTech presents the innovation technology, which helps customers to troubleshoot from product design to development, to optimize design pattern, to shorten time-to-market, and maximize product ROI.
Simulation can help you make quick and informed decisions in the early design phase. But problem is, simulation preprocessing is all too often time consuming and laborious. Moldex3D R15.0 offers enhanced performance, accuracy and better usability to streamline simulation workflow and provide faster turnaround times with added efficiency. Here’re the top most exciting features in Moldex3D R15.0 that will enhance your next simulation projects and results, saving you significant time and effort. Get your next simulation project done faster, more efficiently with Moldex3D R15.0.
Moldex3D Viewer is a free communication tool that enables users to visualize Moldex3D’s analysis results easily and quickly. It supports eDesign, Solid, and Shell projects. Users can view pros and cons of all simulations and share more specific identification with their collaborative teams, such as part designers, mold makers, tooling engineers, partners, or customers worldwide. Moldex3D Viewer offers a comprehensive communication platform that helps users enhance efficiency of design verification and optimization. Moldex3D Viewer offers a free download. Users now can export various analysis results from Moldex3D Project as a compact RSV file, then importing it into Viewer. It is more convenient for cross-departmental discussion and collaboration. It also improves overall productivity and strengthens enterprise competitiveness. For more information, please visit: http://www.moldex3d.com/en/products/viewer
eDesignSYNC brings a simulation-driven design environment. With its powerful analysis capabilities fully embedded in mainstream CAD software, CAD users can synchronize design changes and quickly validate plastic designs. CADdoctor enables multi-CAD data exchange, geometry simplification and verification, quality check, etc. CADdoctor helps users check and heal poor-quality BLM geometry, which will enhance mesh quality and analysis accuracy. Cooling Channel Designer provides a fast and intuitive workflow to build complex cooling system in Designer. Users can create conformal cooling channels automatically based on the contour of product. Fiber visualizes fiber orientation and calculates process-induced anisotropic thermo-mechanical properties for long and short fiber-reinforced plastics. Users can predict warpage distribution and evaluate part strength. Stress provides stress distribution for parts and part inserts. Users can set boundary conditions, such as stress or force, to evaluate the structure quality of plastics and predict potential breakage or deformation. FEA Interface provides a series of FEA Interface modules integrated with industrial leading structural software, including ABAQUS, ANSYS, LS-DYNA, Marc, Nastran, and Radioss. Users can export Fiber and Stress analysis results to calculate further structural performance. Digimat-RP help users to correctly design their fiber reinforced plastic parts. Users can quickly get an accurate material model of reinforced plastics and apply to FEA model for structure analysis with a streamline workflow. Advanced Hot Runner visualizes the filling pattern and temperature distribution of hot runners and moldbase. Users can evaluate the heating efficiency and uniformity to optimize hot runner design. 3D Coolant CFD simulates the water flow in 3D cooling channels designed inside the cavity. Users can visualize the streamline direction and predict hot areas to improve the heat transfer, enhance part quality, and shorten cycle time. Optics analyzes flow- or thermally-induced optical performance of plastics, including birefringence, retardation, fringed orders, and fringed patterns. Moreover, the integration with CODE V provides non-uniform refractive index prediction. Viscoelasticity (VE) calculates viscosity and elasticity variations of plastic materials under different temperature conditions. Users can evaluate the effects on molecular orientation, residual stress, warpage, and optical properties. Expert helps users evaluate the optimal process conditions, such as packing time, cooling time, or mold temperature. Moldex3D Expert creates analysis variations and provides graphical summaries automatically. Compression Molding (CM) simulates the compression molding process in which the polymer is squeezed into a preheated mold cavity. Moldex3D helps users check potential defects resulted from heat and pressure, decide appropriate materials, and optimize process conditions. Injection Compression Molding (ICM) Simulates the injection compression molding process, generally applied to thin and flat plastics, such as light guide plates or compact discs. Users can observe the compression process over time in cavity and evaluate material properties and process conditions. Powder Injection Compression Molding (PIM) visualizes metal or ceramic molding process. Users can observe the fluid flow behavior of the feedstock, consisted of powder and binder, and predict potential defects. You also can evaluate the effects of shear rate and optimize process conditions. Gas-Assisted Injection Molding (GAIM) visualizes the melt flow behavior when gas is injected into the mold cavity through the melt entrance or other specific gas entrance. Users can predict typical GAIM issues, such as fingering effect, blow-through, or corner effect. Water-Assisted Injection Molding (WAIM) visualizes the dynamics of water-assisted injection molding process for hollow plastics. With the visualization of fluid penetration behavior inside the mold cavity, users can define the overflow region and optimize process conditions. Co-Injection Molding visualizes the sequential injection molding process of skin and core plastic materials. Users can decide plastic material pair to optimize the combination of two material properties. You also can predict potential breakthrough on part surface. Bi-Injection Molding visualizes the molding process of two materials being injected independently into a mold cavity. Users can define material type, set independent filling and packing parameters for each material, and observe the flow rate variation from two melt entrances. MuCell® simulates the nucleation and growth of microcellular bubbles when the melt flow is injected into a mold cavity. Moldex3D MuCell® helps users determine optimal processing parameters to eliminate potential defects and warpage problem. Resin Transfer Molding utilize non-isothermal 3D analysis and visualize flow behaviors for various applications. Users can verify the influence of changing fiber mat type and orientation Viscoelasticity (VE) calculates viscosity and elasticity variations of plastic materials under different temperature conditions. Users can evaluate the effects on molecular orientation, residual stress, warpage, and conversion. Compression Molding (CM) simulates the compression molding process in which the polymer is squeezed into a preheated mold cavity. Moldex3D helps users check potential defects resulted from heat and pressure, decide appropriate materials, and optimize process conditions. Underfill simulates the capillary flow influenced by the surface tension of encapsulant, bumps, and substrate in the dispensing process of flip chip underfill. Users can predict the locations of voids and check the manufacturability. ScrewPlus provides prediction on melt volume and temperature distribution with the process-induced effect in the screw and barrel. Moldex3D ScrewPlus helps users evaluate the screw performance and improve flow analysis accuracy. For more information, please visit: http://www.moldex3d.com/en/products/solution-addons