DOCSLIB.ORG

Abaqus/Standard 6.14 Data Sheet

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Abaqus/Standard 6.14 Data Sheet ABAQUS/STANDARD 6.14 DATA SHEET ANALYSIS TYPES • Material removal and MATERIAL DEFINITIONS Additional Material addition General, Linear, and Elastic Mechanical Properties • Mesh-to-mesh solution Nonlinear Analyses Properties • Density mapping • Material damping • Static stress/displacement • Linear elasticity • Adaptive remeshing • Thermal expansion • Direct cyclic • Orthotropic and anisotropic • Fracture mechanics • Thermal and electrical • Low-cycle fatigue linear elasticity (including VCCT) conductivity • Viscoelastic/viscoplastic • Porous elasticity • Symmetric model • Specific heat response • Hypoelasticity generation and results • Latent heat • Dynamic stress/ • Hyperelasticity (including transfer • Damage and failure for fiber- displacement permanent set) • Cyclic symmetry reinforced composites • Steady-state transport • Anisotropic hyperelasticity • Inertia relief • Acoustic medium properties • Heat transfer (transient • Elastomeric foam • Nonstructural mass Bulk modulus and steady-state) • Mullins effect - • Direct matrix input Volumetric drag • Mass diffusion (transient • Viscoelasticity - • Cosimulation • Porous acoustic medium and steady-state) • Nonlinear viscoelasticity • Automatic resolution of Delany-Bazley • Acoustics • Hysteresis - overconstraints Miki • Multiphysics - • Data parameterization and Inelastic Mechanical • Hydrostatic fluid properties - Thermo-electrical- parametric studies Properties Hydraulic fluids structural - • Automatic perturbation of • Metal plasticity - Pneumatic fluids - Pore-fluid flow- geometry Isotropic and anisotropic • Mass diffusion properties mechanical-thermal - • Local degrees of freedom yield criteria - Diffusivity - Magnetostatic • Hydrostatic fluid cavities - Isotropic, kinematic, and - Solubility - Transient low frequency • Annealing ORNL hardening • Pore fluid flow properties electromagnetic • Reinforcements - Porous metal plasticity - Permeability Linear Perturbation • Embedded elements - Cast iron - Porous bulk moduli Analyses • Elastic formulation - Two-layer viscoplasticity - Absorption/exsorption • Static stress/displacement • Meshed beam cross - Creep - Swelling gel - Linear static sections - Volumetric swelling - Moisture swelling - Eigenvalue buckling • Rigid, display, and - Deformation plasticity • User materials • Dynamic stress/ isothermal bodies - Johnson-Cook plasticity • Electromagnetic properties displacement SOLUTION TECHNIQUES • Extended Drucker-Prager - Piezoelectric behavior - Natural frequency • Parallel execution on plasticity - Magnetic permeability extraction both shared memory and • Capped Drucker-Prager (with nonlinear B-H behavior) - Complex eigenvalue distributed memory parallel plasticity - Permanent magnet extraction (cluster) systems • Cam-Clay plasticity - Electrical conductivity Steady-state dynamics • Mohr-Coulomb plasticity - • Parallel direct sparse ELEMENT LIBRARY (direct and mode-based) solver with dynamic load • Crushable foam plasticity - Transient modal balancing • Jointed materials Continuum dynamics • Parallel iterative solver • Concrete • Stress analysis - Response spectrum • Parallel Lanczos eigenvalue • Progressive damage and - 2-D (plane stress, plane - Random response solution failure strain, and • Time-harmonic low • Parallel AMS eigenvalue - Ductile - generalized plane strain) frequency electromagnetic solution - Shear - 3-D (regular and variable Forming limit diagram (FLD) node) ANALYSIS AND • Parallel element operations - • Multiple load cases - Forming limit stress - Cylindrical MODELING diagram (FLSD) Axisymmetric (with and TECHNIQUES • Full Newton and quasi- - - Müschenborn-Sonne without twist) • Import Newton methods forming limit - Axisymmetric with • Restart • GPGPU accelerated sparse diagram (MSFLD) nonlinear, asymmetric • Substructuring solver - Hashin unidirectional deformation • Flexible Body Generation composite - Infinite • Submodeling - Warping ABAQUS/STANDARD 6.14 DATA SHEET • Heat transfer Beams Distributing Coupling - Finite, small, and - 1-D • Stress analysis • Stress analysis infinitesimal sliding - 2-D - 2-D - 2-D • Mechanical contact - 3-D - 3-D (regular, open - 3-D properties - Axisymmetric section, and tapered) - Penalty contact Special-Purpose Elements • Mass diffusion - Hard contact with Pipes • Surface elements - 2-D classical Lagrange • Stress analysis • Hydrostatic fluid elements - 3-D multiplier method - 2-D • Tube support elements - Axisymmetric - Hard contact with - 3-D • Temperature-displacement • Line spring elements augmented Lagrangian • Pipe-soil interaction - 2-D (plane stress, plane Elbows method elements strain, and generalized • Stress analysis - Contact damping • Acoustic interface elements plane strain) - 3-D - Static and kinetic - 3-D Frame Elements User-Defined Elements Coulomb friction - Axisymmetric (with and • Stress analysis • Provides the ability to - Anisotropic friction without twist) - 2-D define custom elements - User-defined friction • Pore pressure - 3-D Prescribed Conditions models - 2-D (plane strain) - Pressure penetration (2-D Trusses • Amplitude curves - 3-D • Initial conditions & 3-D) - Axisymmetric • Stress analysis - Debonding - 2-D • Boundary conditions - Axisymmetric with • Loads - Cohesive behavior nonlinear, asymmetric - 3-D Thermal conductance - Distributed - deformation • Temperature-displacement and radiation contact - Surface tractions • Piezoelectric - 2-D properties - 3-D - Concentrated forces - 2-D (plane stress and and moments • Electrical contact properties plane strain) • Piezoelectric • Pore fluid contact properties - Follower forces 3-D - 2-D • User-defined interfacial - - Thermal Axisymmetric - 3-D constitutive behavior - - Electrical Axisymmetric with - Gasket Elements - Acoustic Element-Based Contact nonlinear, asymmetric • Stress analysis - Pore fluid flow Modeling deformation 2-D (plane stress and - - Prescribed assembly loads • Gap contact elements • Thermal-electrical plane strain) - Predefined fields - Mechanical and thermal - 1-D - 3-D User-defined - Cavity Radiation - 2-D - Axisymmetric • Sensors and actuators • 2-D, 3-D, axisymmetric - 3-D Inertial Elements Axisymmetric CONSTRAINTS AND • Closed and open cavities - • Stress analysis • Acoustic INTERACTIONS • Symmetry and surface - Point mass - 1-D blocking - Anisotropic Point Mass Kinematic Constraints 2-D • Surface motion with - Rotary inertia • Linear constraint equations - automatic view factor - 3-D • General multi-point Rigid Elements computations - Axisymmetric constraints • Stress analysis • Surface radiation properties - Infinite • Kinematic coupling - 2-D • Electromagnetic • Surface-based constraints USER SUBROUTINES 2-D - 3-D - - Mesh ties • Over 40 user-defined 3-D - Capacitance Elements - Kinematic and distributing subroutines Shells • Heat transfer point heat couplings • Stress analysis capacitance - Shell-to-solid couplings ADDITIONAL FEATURES • Drag chains - 3-D Connector Elements - Mesh-independent - Continuum shell fasteners • “Spud can” joint elements • Stress analysis • Tube-in-tube slide lines - Axisymmetric - 2-D • Embedded elements - Axisymmetric with - 3-D • Element end release INPUT nonlinear, asymmetric Surface-Based Contact • Keywords deformation Cohesive Elements Modeling • Set concept • Heat transfer • Stress analysis • General (“automatic”) • Multiple coordinate systems - 3-D - 2-D contact • Parts and assemblies - Axisymmetric - 3-D • Contact interactions • Nastran bulk data • Temperature-displacement Springs, Dashpots, and - 2-D, 3-D - 3-D OUTPUT Flexible Joints - Deformable-deformable - Axisymmetric • Stress analysis • Interactive graphical contact postprocessing - 2-D Membranes - Rigid-rigid contact • Platform-neutral output • Stress analysis - 3-D - Self-contact database 3-D • Pore pressure - • Contact formulations • Printed output Cylindrical - 2-D - - Balanced or pure • External file output Axisymmetric (with and - 3-D - master-slave contact • Restart output without twist) ABAQUS/STANDARD 6.14 DATA SHEET • Diagnostic messages RELATED PRODUCTS • Nastran Output2 Abaqus/AMS • Scripting interface • High-performance SUPPORTED automatic multi-level PLATFORMS substructuring eigensolver AND HARDWARE Abaqus/Design • Windows/x86-32 • Design sensitivity analysis • Windows/x86-64 • Sensitivities with respect • Linux/x86-64 to shape and material • GPU support parameters DOCUMENTATION • Nonlinear geometric • Analysis User’s Manual effects • Keywords Manual Abaqus/Aqua • Getting Started Manual • Surrounding medium • Example Problems Manual - Fluid profile • Benchmarks Manual - Wave profile • Verification Manual - Wind profile • Theory Manual • Loading • Interfaces User’s Manuals - Drag • Release Notes - Buoyancy PRODUCT SUPPORT - Inertia • Maintenance and support Interface Products • Quality Monitoring Service • Enable the use of • Installation Abaqus/Standard with • Training and users’ complementary software meetings from third-party suppliers in areas such as plastics injection molding and multibody dynamics 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 trademarks commercial are 3D VIA, BIOVIA, NETVIBES, and 3DXCITE
Load more

Recommended publications
  • What's New in Solidworks 2019—3D
    WHAT’S NEW IN SOLIDWORKS 2019—3D CAD MESH MODELING OPENS UP NEW DESIGN Benefits 1 POSSIBILITIES Increased capabilities for mesh geometry • Easily create complex textures by converting 2D appearances streamlining reverse into real 3D geometry engineering and • Use mesh files like they are solids using the new Segment topology optimization. Mesh • Automatically create 2D sketches at intersections of geometry and a plane with the Slicing command NEW WAYS TO INTERACT WITH SOLIDWORKS Benefits 2 • Support for Microsoft® Surface dial from the Surface Studio Be more productive with the latest • Sketch gesture recognition enhancements including splines interfaces devices and and slots SOLIDWORKS. • Improved Touch mode gestures including copy, select and drag, and 3D rotate lock • Customize task pane tabs EXTEND YOUR SOLIDWORKS EXPERIENCE IN AR/VR Benefits 3 • Simplify the path from SOLIDWORKS® to Augmented (AR) Faster performance and new ways to and Virtual Reality (VR) with a new export option called interact with your Extended Reality (XR) CAD data in AR/VR. • Full support of latest graphics card types results in a dramatic frame rate increase CREATE AND WORK WITH LARGE ASSEMBLIES Benefits 4 FASTER Massive performance gains and workflow • Create new assemblies in Large Design Review mode optimization with • Enhanced Defeature tool gives more control and usability for large assemblies. IP protection • Save assembly as multi-body part has more options and more control • Automatically lock rotation for Toolbox fasteners CLEARER AND FASTER COLLABORATION Benefits 5 • New export options for AEC and 3D Interconnect now More options for import and export to supports IFC import make collaboration • 3D Mark up on parts and assemblies (also Pen/Touch enabled) easier.
    [Show full text]
  • Dassault Systèmes Products Lines Releases Support Life Cycle Dates for Licensed Program
    Dassault Systèmes Products Lines Releases Support Life Cycle Dates For licensed program | ref.: 3DS_Document_2014ref.: | © Dassault Systèmes | Confidential Information | 5/23/14 © Dassault| Confidential Systèmes 3DS.COM Applicable as of - 6/8/2018 Dassault Systèmes - Customer Support Table of contents 1. 3DEXPERIENCE ........................................................................................................... 4 2. 3DEXCITE ..................................................................................................................... 5 3. BIOVIA ........................................................................................................................... 6 4. CATIA Composer ........................................................................................................... 7 5. CATIA V4 ....................................................................................................................... 8 6. CATIA AITAC ................................................................................................................. 9 7. DELMIA APRISO ......................................................................................................... 10 8. DELMIA ORTEMS ....................................................................................................... 11 9. DYMOLA...................................................................................................................... 12 10. ELECTRE & ELECTRE Connectors for V5 .................................................................
    [Show full text]
  • ISIGHT Brochure
    ISIGHT AUTOMATE DESIGN EXPLORATION AND OPTIMIZATION ISIGHT INDUSTRY CHALLENGES In today’s computer-aided product development and manufacturing environment, designers and engineers are using a wide range of KEY BENEFITS software tools to design and simulate their products. Often, the • Reduce time and costs parameters and results from one software package are required as • Improve product reliability inputs to another package, and the manual process of entering the required data can reduce efficiency, slow product development, and • Gain competitive advantage introduce errors in modeling and simulation assumptions. SIMULIA’s Isight Solution Isight provides designers, engineers, and researchers with an open system for integrating design and simulation models—created with various CAD, CAE, and other software applications—to automate the execution of hundreds or thousands of simulations. Isight allows users to save time and improve their products by optimizing them against performance or cost metrics through statistical methods, such as Design of Experiments (DOE) or Design for Six Sigma. Isight combines cross-disciplinary models and applications together in a simulation process flow, automates their execution, explores the resulting design space, and identifies the optimal design Isight parameters based on required constraints. Isight’s ability to manipulate and map parametric data between process steps and automate multiple simulations greatly improves efficiency, reduces manual errors, and accelerates the evaluation of product design alternatives. Open Component Framework Isight provides a standard library of components— including Excel™, Word™, CATIA V5™, Dymola™, MATLAB®, COM, Text I/O applications, Java and Python Scripting, and databases—for integrating and running a model or simulation. These components form the building blocks of simulation process flows.
    [Show full text]
  • Software Product
    DEVELOPERS GUIDE BIOVIA DRAW 2016 Copyright Notice ©2016 Dassault Systèmes. All rights reserved. 3DEXPERIENCE, the Compass icon and the 3DS logo, CATIA, SOLIDWORKS, ENOVIA, DELMIA, SIMULIA, GEOVIA, EXALEAD, 3D VIA, BIOVIA and NETVIBES 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. Acknowledgments and References To print photographs or files of computational results (figures and/or data) obtained using BIOVIA software, acknowledge the source in an appropriate format. For example: "Computational results obtained using software programs from Dassault Systèmes BIOVIA. The ab initio calculations were performed with the DMol3 program, and graphical displays generated with Draw." BIOVIA may grant permission to republish or reprint its copyrighted materials. Requests should be submitted to BIOVIA Support, either through electronic mail to [email protected], or in writing to: BIOVIA Support 5005 Wateridge Vista Drive, San Diego, CA 92121 USA ExtendableRenditorDemo 28 Contents StructureResolver API 29 Deployment of the Example 30 Draw Overview 1 DemoRendererCustomAssemblyResolver 34 Customizing Draw 1 DemoLateBoundRenditor 35 Important Files and Documents 1 Add-ins: Actions and Tools 37 The Draw Editor 2 About Add-in Actions 37 Using Draw in a .NET Application 2 Add-in Action Example: Using Draw in
    [Show full text]
  • Biovia Materials Studio Motif Datasheet
    BIOVIA MATERIALS STUDIO MOTIF DATASHEET BIOVIA Materials Studio Motif expands BIOVIA’s toolset for BIOVIA Materials Studio Motif supports two primary workflows: crystal engineering efforts. It is a tool designed to analyze To extract connectivity information of molecular crystals and to connectivity information in molecular crystals, providing a compare this connectivity information to experimentally know qualitative and quantitative analysis method of hydrogen structures. bond topologies. Combined with the predictive capabilities of The first workflow uses previously defined contact points – Polymorph, BIOVIA Materials Studio Motif helps categorizing typically hydrogen bond acceptors/ donors or ionic contacts proposed packing arrangements and introduces a similarity – to search for bonding motifs: Rings, infinite and finite chains, measure to related structures available in the Cambridge discrete motifs, and intermolecular contacts. Structural Database (CSD), allowing for a statistical scoring of proposed structures The second workflow queries the Cambridge Structural Database (CSD) for similar or related structures and their Polymorphism affects a wide array of materials properties, bonding motifs. BIOVIA Materials Studio Motif uses a similarity including solubility, bioavailability, mechanical stability, and measure – based on Tanimoto coefficients – to gauge whether manufacturability. For researchers dealing with solidification the bonding motifs of comparable CSD structures match those processes, selecting an optimal form introduces both challenges of the analyzed structure. As a result a similarity score is and opportunities. BIOVIA Materials Studio Motif supports these assigned to the analyzed structure. This allows for a statistical scientific efforts by generating knowledge about hydrogen comparison of a proposed new polymorph and previously bond topologies. This knowledge can help categorizing the known structures with similar molecular architecture.
    [Show full text]
  • Guidelines for Papers to Be Presented at the ABAQUS Users' Conference
    Multiscale Modeling of Polymer Composites: From Atomistic Simulation to Structural Analysis Takaya Kobayashi, Kensuke Ogawa Mechanical Design & Analysis Corporation Satoru Yamamoto, Riichi Kuwahara Dassault Systemes BIOVIA K.K. Ryosuke Matsuzaki Tokyo University of Science Abstract: A multiscale modeling procedure was presented to design thermosetting resins and products of polymer composites. Heat curing and cross-linking reaction steps were considered with activation energy and heat generation via molecular dynamics simulation of BIOVIA Materials Studio. The mechanical properties and adhesive strength for fillers were also estimated, and were assigned to SIMULIA Abaqus. Using the Abaqus fracture analysis capability, the crack propagation behavior, including matrix-failure and interface-failure, was investigated. Keywords: Polymer Composites, Multiscale Modeling, Atomistic Simulation and Structural Analysis. 1. Introduction Polymer composites formed by thermosetting resins and carbon fibers are promising materials in transportation systems, such as airplanes and automobiles, owing to their light weight and high stiffness. In thermosetting resins, combinations of epoxy and amine compounds are widely used as the base resin and curing agent, respectively. The curing process of the thermosetting resin was investigated, as shown in Figure 1. The mechanical behavior of the curing process can be characterized by thermo-rheological behaviors (typically, the expression of elasticity owing to gelling and the volumetric change owing to curing shrinkage). From an experimental point of view, the expression of elasticity is evaluated by viscoelastic measurements using a shear rheometer with parallel plates, whereas the curing shrinkage is measured typically by volumetric dilatometry. These measurements must be followed by an estimation of the curing (hardening) degree, which indicates the degree of progression of the curing reaction of the polymeric materials.
    [Show full text]
  • About Geovia
    ABOUT GEOVIA OVERVIEW Globally, Dassault Systèmes’ GEOVIA employs over 150 GEOVIA is part of Dassault Systèmes, the 3DEXPERIENCE® mining professionals in all major mining centers. With expert Company. While GEOVIA’s focus is currently on the mining knowledge of their regions, and local language and cultural industry, its objective is to model and simulate our planet, understanding, our services professionals are highly skilled at improving predictability, efficiency, safety, and sustainability maximizing the benefits of its software solutions. throughout the natural resources sector. WHAT CLIENTS SAY ABOUT GEOVIA DASSAULT SYSTÈMES AND MINING “InSite provided a quick return on investment – we were up When mining companies seek to increase mine productivity, and running in production in just two months. Thanks to they turn to Dassault Systèmes for technology and services. It InSite, our stockpile balances can be accurately calculated and is home to world renowned and award winning mining we have the ability to report on numbers we can rely on.” solutions and to industry thought leaders who are pushing the — André van Wageningen boundaries of what’s possible in mining. The largest global Engineering Superintendent, Agnico-Eagle Kittilä Mine supplier of mining software, Dassault Systèmes’ GEOVIA delivers comprehensive solutions in all major mining centers in “The broader application of GEOVIA MineSched has improved more than 135 countries at over 4,000 sites. Every major our ability to reach to changes in external conditions such as mining company is a Dassault Systèmes client. the downturn in commodity prices and changing site conditions such as harder ore types and higher arsenic WHY MINING COMPANIES grades.
    [Show full text]
  • Intelligent Customer Analytics a Data-Driven Solution for Boosting Customer Engagement and Loyalty
    BUSINESS SERVICES INTELLIGENT CUSTOMER ANALYTICS A DATA-DRIVEN SOLUTION FOR BOOSTING CUSTOMER ENGAGEMENT AND LOYALTY GAIN HOLISTIC, ACTIONABLE CUSTOMER INSIGHTS, MAKE SMARTER DECISIONS AND IMPROVE YOUR CUSTOMER’S EXPERIENCE If you embrace digital transformation, can you improve customer engagement, distill actionable customer insights to increase efficiencies, and strengthen customer trust? INTELLIGENT CUSTOMER ANALYTICS “With a customer engagement system…like EXALEAD OneCall*, we have a better client employee experience overall.” 360º TIMELINE INSTANT — Frédéric360 LOUISº NEXT VIEW Chief InformationCOLLABORAT OfficerION Eovi McdPL UmutuelleS BEST ACTION Data Multi-channel Internal Extended Recommended Discovery Customer Behavior Sharing Content Actions Increasingly digitally savvy customers with an appetite for personalized and sophisticated products are demanding greater simplicity and stronger client engagement. Regulators are demanding greater transparency and more discipline and all industries are facing a more competitive and challenging environment. Only those institutions that can distill actionable customer insights from disparate sources of enterprise and social data can transform the challenges of the current environment into opportunities, regain customer trust, increase operational efficiencies, and gain a competitive advantage. If you embrace digital transformation, can you you compete more effectively, differentiate, and win back customer trust whilst competitors are side-lined as they undergo passive transformation? BUSINESS
    [Show full text]
  • What's New in Biovia Materials Studio 2020
    WHAT’S NEW IN BIOVIA MATERIALS STUDIO 2020 Datasheet BIOVIA Materials Studio 2020 is the latest release of BIOVIA’s predictive science tools for chemistry and materials science research. Materials Studio empowers researchers to understand the relationships between a material’s mo- lecular or crystal structure and its properties in order to make more informed decisions about materials research and development. More often than not materials performance is influenced by phenomena at multiple scales. Scientists using Materials Studio 2020 have an extensive suite of world class solvers and parameter sets operating from atoms to microscale for simulating more materials and more properties than ever before. Furthermore, the predicted properties can now be used in multi-physics modeling and in systems modeling software such as SIMULIA Abaqus and CATIA Dymola to predict macroscopic behaviors. In this way multiscale simulations can be used to solve some of the toughest pro- blems in materials design and product optimization. BETTER MATERIALS - BETTER BATTERIES Safe, fast charging batteries with high energy density and long life are urgently needed for a host of applications - not least for the electrification of all modes of transportation as an alternative to fossil fuel energy sources. Battery design relies on a complex interplay between thermal, mechanical and chemical processes from the smallest scales of the material (electronic structure) through to the geometry of the battery cell and pack design. Improvements to the component materials used in batteries and capacitors are fundamental to providing the advances in performance needed. Materials Studio provides new functionality to enable the simula- tion of key materials parameters for both liquid electrolytes and electrode components.
    [Show full text]
  • Biovia Quality Statement
    BIOVIA QUALITY STATEMENT Datasheet COMPANY INFORMATION Organization establishes a basis for the content of the quality Headquartered in San Diego, California, BIOVIA, Dassault Sys- system, and IEEE provides additional standards for processes, tèmes (BIOVIA) supports science-based industries by providing tools and documentation. a scientific collaborative environment for advanced biological, Dassault Systèmes, the parent company of the BIOVIA brand, has chemical and materials experiences. With the goal of helping achieved ISO 9001:2015 for the Quality Management System organizations develop better products faster and more cost for the 3DEXPERIENCE platform cloud applications. To request effectively, BIOVIA supports customers in the Life Sciences and and download the certificate, go to https://www.3ds.com/ Materials Science & Engineering sectors to help them: about-3ds/ethics-and-compliance/quality-compliance/. • Enhance product and process insight In addition, many of the world’s leading pharmaceutical compa- • Facilitate collaboration, both internally and across externalized nies have audited the BIOVIA quality system and have approved research networks, and BIOVIA as a quality strategic supplier. • Accelerate compliant product and process development from Our system mandates quality procedures that are implemented research through late-stage QC/QA, manufacturing and during the product development process, such as periodic audits, commercialization the use of development and process document templates, execu- tive approval of processes and plans, quality compliance oversight Refer to the BIOVIA Brand Profile datasheet for more informa- and on-line access to process documents. New employees receive tion and history. quality system training as part of their new employee orienta- tion, as well as on-going training on process changes for existing QUALITY MANAGEMENT SYSTEM employees.
    [Show full text]
  • Running an Abaqus Job on the Cloud
    SIMULIA COMMUNITY NEWS #18 December 2017 EMPOWERED BY THE CLOUD COVER STORY DIGITAL ORTHOPAEDICS 6 | DigitalAdmedes Orthopaedics In this Issue December 2017 3 Welcome Letter Bruce Engelmann, SIMULIA R&D VP & CTO 4 Future Outlook Accessing the Latest Simulation Technologies from SIMULIA on the Cloud 6 Cover Story Digital Orthopaedics: Feet in the Cloud 10 | The Living Heart 9 Solution Highlight A Simulation Tool that Connects the Dots on the 3DEXPERIENCE Platform 10 The Living Heart on the Cloud Growing Awareness of the Value of Modeling and Simulation for Life Sciences 12 Solution Update: Virtual Human Modeling on The Cloud Advance Biomedical Engineering Through Realistic Simulation 14 Tech Tip Running an Abaqus Job on the Cloud 12 | Virtual Human 15 Alliances Using Your SIMULIA Portfolio License on the Cloud Modeling 17 Vertical Applications Democratize Analysis using Simulation Vertical Applications 18 3DEXPERIENCE for Academia + SIMULIA Bringing Innovation and Industry into the Classroom Contributors: Parker Group & Digital Orthopaedics On the Cover: Mr. Eric Halioua, Dr. Thibaut Leemrijse, Dr. Bruno Ferré, Digital Orthopaedics Photo by: Couloir 3, Paris, France 18 | Academic SIMULIA Community News is published by Dassault Systèmes Simulia Corp., 1301 Atwood Avenue, Suite 101W, Johnston, RI 02919, Tel. +1 401 531 5000, Fax. +1 401 531 5005, [email protected], www.3ds.com/simulia Editor: Tad Clarke Associate Editor: Kristina Hines Graphic Designer: Todd Sabelli ©2017 Dassault Systèmes. All rights reserved. 3DEXPERIENCE®, the Compass icon and the 3DS logo, CATIA, SOLIDWORKS, ENOVIA, DELMIA, SIMULIA, GEOVIA, EXALEAD, 3D VIA, 3DSWYM, BIOVIA, NETVIBES and 3DEXCITE are commercial trademarks or registered trademarks of Dassault Systèmes or its subsidiaries in the U.S.
    [Show full text]
  • NET COMPONENT DEVELOPMENT GUIDE PIPELINE PILOT INTEGRATION COLLECTION 2017 Copyright Notice
    .NET COMPONENT DEVELOPMENT GUIDE PIPELINE PILOT INTEGRATION COLLECTION 2017 Copyright Notice ©2016 Dassault Systèmes. All rights reserved. 3DEXPERIENCE, the Compass icon and the 3DS logo, CATIA, SOLIDWORKS, ENOVIA, DELMIA, SIMULIA, GEOVIA, EXALEAD, 3D VIA, BIOVIA and NETVIBES 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. Acknowledgments and References To print photographs or files of computational results (figures and/or data) obtained using BIOVIA software, acknowledge the source in an appropriate format. For example: "Computational results obtained using software programs from Dassault Systèmes BIOVIA. The ab initio calculations were performed with the DMol3 program, and graphical displays generated with Pipeline Pilot." BIOVIA may grant permission to republish or reprint its copyrighted materials. Requests should be submitted to BIOVIA Support, either through electronic mail to [email protected], or in writing to: BIOVIA Support 5005 Wateridge Vista Drive, San Diego, CA 92121 USA Contents Chapter 1: Introduction 1 About .NET Component Development 1 Who Should Read this Guide 1 Requirements 1 Getting Started with .NET Component Development 1 .NET Component API 2 Component Interface 2 Additional Information 2 Chapter 2: .NET Integration Components and Examples 3 Dynamic .NET (on Server)
    [Show full text]