SIMULIA Simpoe Mold Brochure
2015-10-19
: Ensight Simulia-Simpoe-Mold-Brochure SIMULIA-Simpoe-Mold-brochure AbaqusRUM_2015 CEI Houston
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SIMPOE-MOLD PLASTIC INJECTION SIMULATION PREDICT AND AVOID MANUFACTURING DEFECTS DURING THE EARLIEST STAGES OF PART AND MOLD DESIGN Simpoe-Mold enables part designers, mold designers and mold makers to optimize the design of plastic parts and injection molds. For companies that design plastic parts or injection molds or manufacture plastic parts, SimpoeMold helps users predict and avoid manufacturing defects during the earliest stages of part and mold design, eliminating costly mold rework, improving part quality, decreasing time to market and optimizing production cycle times. The Simpoe-Mold plastic injection simulation solution is targeted towards all players involved in the plastic industry, whether they are product designers, mold designers, mold makers or plastic part manufacturers. Simpoe-Mold allows simulation with shell and solid mesh, with or without inserts, and it can handle complex shapes. Simpoe-Mold also allows simulation of more advanced processes, such as gas-assisted injection, co-injection molding, bi-refringance, overmolding, multishot or multi-domain injection. FOR PLASTIC PART DESIGNERS Simpoe-Mold ENG Simpoe-Mold ENG lets plastic part designers optimize plastic parts for manufacturability during the initial stages of product design. It lets designers simulate the filling and packing phases of the injection molding process thus helping identify common molding defects, including short shots, air traps, weld lines, fiber orientation and sink marks. It also helps predict required injection pressure and tool clamping forces thus enabling selection of an appropriate molding machine • Easy-to-use interface • Import CAD in STEP/IGES/STL formats • Import CATIA V5 • Solid and shell parts support • Built-in customizable material data base that includes more than 5,000 materials • Built-in customizable machine data base that includes more than 3,000 references conformal cooling. It can predict part warpage due to internal stress, temperature and shrinkage. • Automatic surface including midplane and volume meshers • Provide cooling system analysis, including multiple cooling channels, baffles and bubblers and conformal cooling • Identify common molding defects such as short shots, air traps, weld lines, fiber orientation and sink marks • Predict required injection pressure and tool clamping force, enabling selection of an appropriate injection molding machine • Display distributions of shearing and temperature growth due to shear heating, allowing designers to avoid material degradation and optimize fill times • Predicts part warping due to internal stress, temperature, and shrinkage • Links to structural analysis using Abaqus and other thirdparty software; export of deformed and counter deformed geometry • Visualize warpage • Predicts process cycle time • Visualize melt front animation, weld lines, air traps, sink marks, fiber orientation, volumetric shrinkage, and temperature/pressure fields • Automatic report generation with HTML, PPT and Word Formats Warpage analysis using Simpoe-Mold TOOL Highlights • Easy-to-use interface • Import CAD in various formats such as STEP, IGES, STL and CATIA V5 • Easy-to-use and automatic solid and shell meshing Fiiling Analysis using Simpoe-Mold ENG • Built-in customizable material data base that includes more than 5,000 materials FOR PLASTIC PART DESIGNERS, MOLD DESIGNERS AND MOLD MAKERS • Built-in customizable machine data base that includes more than 3,000 references Simpoe-Mold TOOL • Predict required injection pressure and tool clamping force Apart from the functionality embedded in Simpoe-Mold ENG, Simpoe-Mold TOOL additionally enables mold designers and mold makers to optimize their mold design. Simpoe-Mold TOOL allows users to create and analyze single, multicavity and family mold layouts. It also provides cooling system analysis, including multiple cooling channels, baffles and bubblers and • Visualize melt front animation, weld lines, air traps, sink marks, fiber orientation, volumetric shrinkage, and temperature/pressure fields • Automatic report generation with HTML, PPT and Word Formats Our 3DEXPERIENCE Platform powers our brand applications, serving 12 industries, and provides a rich portfolio of industry solution experiences. Dassault Systèmes, the 3DEXPERIENCE Company, provides business and people with virtual universes to imagine sustainable innovations. Its world-leading solutions transform the way products are designed, produced, and supported. Dassault Systèmes’ collaborative solutions foster social innovation, expanding possibilities for the virtual world to improve the real world. The group brings value to over 170,000 customers of all sizes in all industries in more than 140 countries. For more information, visit www.3ds.com. Americas Dassault Systèmes 175 Wyman Street Waltham, Massachusetts 02451-1223 USA Europe/Middle East/Africa Dassault Systèmes 10, rue Marcel Dassault CS 40501 78946 Vélizy-Villacoublay Cedex France Asia-Pacific Dassault Systèmes K.K. ThinkPark Tower 2-1-1 Osaki, Shinagawa-ku, Tokyo 141-6020 Japan ©2014 Dassault Systèmes. All rights reserved. 3DEXPERIENCE, the Compass icon and the 3DS logo, CATIA, SOLIDWORKS, ENOVIA, DELMIA, SIMULIA, GEOVIA, EXALEAD, 3D VIA, BIOVIA, NETVIBES, and 3DXCITE are commercial trademarks or registered trademarks of Dassault Systèmes or its subsidiaries in the U.S. and/or other countries. All other trademarks are owned by their respective owners. Use of any Dassault Systèmes or its subsidiaries trademarks is subject to their express written approval. • Simulate filling and packing phases of injection molding process up to ejection or de-molding
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