Questions to Ask When Choosing a Motion and
Stress Simulation Solution
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This Bourdon tube pressure gauge utilizes kinematic elements and
surface-to-surface contact elements between the gauge's gears to replicate the
motion of the indicator needle as pressure is increased within the tube.
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view the analysis replay for this model.
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This MES of a conveyor belt assembly uses a nonlinear hyperelastic
material model for the belt. This simulation enabled engineers to study the
response of the conveyor belt during tensioning.
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view the analysis replay for this model. |
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This MES of a hydraulic floor jack shows the stresses over time as the jack
lifts a load. Kinematic elements, actuator elements and multiple load curves
were all used in this simulation.
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view the analysis replay for this model.
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This multiphysics simulation of a common single-pole residential circuit
breaker combines electrostatic, transient heat transfer and MES analyses to
determine the trip time and behavior. When subjected to an overload condition,
the bimetallic strip in the breaker deforms due to Joule heating and trips the
mechanism to break the circuit.
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view the analysis replay for this model.
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Software support and service includes a technical service engineer assigned specifically to each
account.
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ALGOR’s internationalized software includes support for six languages, including Chinese (simplified),
English, French, German, Italian and Spanish.
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Combined Motion and Stress Analysis
Mechanical Event Simulation (MES) combines motion and stress analysis
in a single process. Rigid-body motion and flexible-body
kinematics account for the bending, twisting, stretching,
squashing and inertial effects of a model while simultaneously
calculating motion. MES automatically calculates loads and timestepping
based on physical data, so engineers can set up fast, realistic
simulations involving small- or large-scale motion and avoid
making costly and sometimes inaccurate assumptions.
Click here to
see how this compares to conventional simulation.
Consideration of Flexible Joints
and Links
MES accounts for flexible joints and links in a
mechanism and updates stiffnesses throughout an analysis to
produce more accurate results than motion simulation software
based on rigid-body kinematics.
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see how this compares to conventional simulation.
Linear and Nonlinear Material Model Capabilities
Having both linear and nonlinear material models available enables engineers to better understand the real-world behavior of parts by closely considering the actual material behavior. If the typical behavior of a part causes its materials to extend beyond the linear range, as with applications involving twisting, stretching, squashing and buckling, or if the engineer wants to learn how the part will fail, the engineer can choose from a wide range of nonlinear material models for a more accurate analysis. Click
here to see how this compares to conventional simulation.
Automatic
Time-Stepping
MES uses an automatic time-stepping scheme that incorporates an implicit timestep method to
produce an efficient and accurate solution.
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see how this compares to conventional simulation.
No Need to Approximate Loads and Constraints
MES results are based on physical data, rather than calculated or
assumed loads and constraints, so there is no need to estimate
dynamic or contact forces or input constraints that do not exist
in the real world (i.e., free-falling objects). MES also reduces
setup time by automatically calculating contact points,
orientations and stiffnesses.
Click here to
see how this compares to conventional simulation.
Easy-to-Use Graphical User Interface
ALGOR FEMPRO is a complete and easy-to-use finite element
modeling, results evaluation and presentation interface. FEMPRO
features multiple view windows, a tree view of the model and
associated data and Windows-native data input screens with
real-time data checking for reasonable input.
Easy Setup of Events
Setting up events for MES is easy because ALGOR FEMPRO uses
standard engineering terminology and visual process guidance, so
that users can focus on the physics of a part or assembly. In
addition, ALGOR provides Timeline
technology for managing time-dependent input parameters through
a graphical user interface.
Click here to see how this compares to conventional
simulation.
Direct CAD/CAE Data Exchange
InCAD technology provides direct data exchange of the exact CAD geometry from
Alibre Design, Autodesk Inventor, Inovate, IronCAD, KeyCreator, Mechanical Desktop,
Pro/ENGINEER, Solid Edge and SolidWorks. Full associativity with
each design change is available for Autodesk Inventor, Inovate,
IronCAD,
Pro/ENGINEER, Solid Edge and SolidWorks. Even when the
CAD solid modeler resides on a separate computer, InCAD's Direct Memory Image Transfer (DMIT) technology can be used for the
same, fully associative interoperability. Options are also
available for importing 2- and 3-D geometry through CAD
universal file formats including ACIS, IGES and STEP.
Built-In Modeling Tools
All ALGOR core packages include the Alibre Design Basic
parametric, feature-based modeling system and built-in
precision FEA model-building capabilities with structured
meshing tools for building designs from scratch and refining CAD
designs. Automatic, High-Quality FEA Meshing
Built-in solid mesh engines automatically generate high-quality FEA meshes using bricks, tetrahedra or hybrid with bricks on the model surface (where stress values are highest) and tetrahedra
inside. This one-step meshing also includes automatic,
feature-based mesh refinement so a finer mesh is generated in
areas of the model where stresses tend to be higher. Engineers
can control mesh density using sliding controls and a built-in
aspect ratio checker enables the software to generate fewer,
better-shaped elements on the first pass to ensure accuracy and
optimize speed. A midplane mesh engine helps engineers who
regularly work with thin-walled geometry to accurately model
these parts and assemblies in less time. This tool automatically
converts thin, solid geometry into plate or shell elements with
automatic handling of parts, assemblies, multi-thickness regions
and mixed element type models. It includes built-in gap healing
where surfaces intersect.
Material Library Manager for Managing Material Data
Engineers can apply material properties from a built-in library of common materials, or they can add, import, modify and delete material data within customized libraries using the Material Library Manager.
Faster Processing to Reduce Solution Time
Fast solvers provide significantly faster processing times through new solver technology that also utilizes the power of all available system processors to perform parallel solutions.
Multiphysics
Real-world mechanical behavior is often the result of
several physical factors acting simultaneously. A wide range of analysis types can be combined with MES
within the same easy-to-use ALGOR FEMPRO interface including static
stress with linear and nonlinear material models, linear
dynamics, steady-state and transient heat transfer, steady and
unsteady fluid flow, electrostatics, full multiphysics and
piping. User-friendly tools and wizards automate the application
of results from one type of analysis to another for multiphysics
analyses that enables engineers to simulate a product's behavior
when those multiple physical factors interact.
Extensive Results Evaluation and
Presentation Capabilities
MES provides dynamic visualization of the part’s behavior during or after
the event. All analysis results can be displayed graphically as
contours or plots; animated with AVI creation and display tools; output
in the BMP, JPG, TIF, PNG, PCX and TGA formats; and presented in text or
HTML reports. A built-in graphics environment provides extensive results
evaluation and presentation capabilities and features multiple-window
displays, fast dynamic viewing controls and customization options
including user-defined color palettes and annotations.
Built-In HTML-Based Report Generation
A built-in Report Wizard is provided so engineers can document analysis results and present them to others. The customized report can include images, animations and VRML files.
Flexible License Management
All ALGOR software supports LAN and WAN networked
license sharing; enterprise-wide and remote-use licensing; and single,
node-locked licensing.
Customer Service
Software support and service includes a technical service
engineer and account manager assigned specifically to each account, online
customer account management tools, keystroke-specific tutorials, an accuracy
verification CD-ROM and process-oriented user documentation with every purchase;
Internet-based, streaming-video Webcasts for free software demonstrations;
in-depth distance learning Web Courses; e-mail news bulletins and frequent,
automatic software updates.
Internationalized Language Support
ALGOR software features internationalized language support allowing engineers to perform
FEA in any of six languages including Chinese (simplified), English, French, German, Italian and Spanish.
Working in the language of choice increases productivity and provides flexibility for sharing models and reports.
ALGOR's internationalized software includes:
the graphical user interface and user documentation in the language of choice;
automatic language detection based on Windows regional settings;
convenient selection of any language at any time;
available for virtually all analysis types;
and updates with ALGOR’s regular (quarterly) release schedule.
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