inventor 2019 lancering - nti.dk · inventor professional. factory design utility (layout i autocad...

Inventor 2019 lancering

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One AutoCAD – Tool set:• AutoCAD • AutoCAD Architecture • AutoCAD Electrical • AutoCAD Map 3D • AutoCAD Mechanical • AutoCAD MEP • AutoCAD Plant 3D (inkl.

P&ID)• AutoCAD Raster Design • AutoCAD mobile • appAutoCAD web app

Inventor ProfessionalFactory Design Utility (Layout i AutoCAD og Inventor)Nesting UtilityNavisworks3ds MaxFusion 360Vault BasicNastran In-CADHSM Ultimate Recap ProAutodesk driveAutodesk Rendering

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PD&M Collection nyheder

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One Autocad

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One Autocad

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ArchitectureMechanical Electrical MEP Plant 3D Map 3D Raster Design

Specialized Toolsets

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HSM

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Autodesk HSM - Functionality

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Express (Free) Ultimate (Embedded in PDMC)

2.5 Axis 2- to 5- Axis, 3+2, Multi-Axis, Turning

- Fusion 360 Standard (3 Axis)

Inventor Add-in (2.5 Axis) Inventor Add-in (5 Axis)

SolidWorks Add-in (2.5 Axis) SolidWorks Add-in (5 Axis)

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2D Toolpaths

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2D Pocket

2D Adaptive

2D Contour

TraceSlot

Engrave

Drilling

Thread/BoreCircular

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3D Toolpaths

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Parallel MorphFlow

Scallop

Contour/Ramp

Project

Morphed Spiral

RadialSpiral

Horizontal

Pencil

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Turning

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Parting

Chamfer

Single Groove

Groove Profile

Thread

Face

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Nastran IN-CAD

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ATTN! - Nastran In-CAD joined Collection!

Assemblies Bolted connections, sliding interfaces, friction

Time Transient dynamic loads, vibration, fatigue, and shock

Temperature Consider the effects of heat. Solve for temps, heat loads,

resulting thermal expansion and thermal stresses

Nonlinear Go Beyond Linear Analysis – large displacement effects,

nonlinear (flexible) materials, buckling

http://feaforall.com/

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Analyze types

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Positioning Nastran In-CAD

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Low

Cos

t of

Entry

Hig

h C

ost o

f En

try

ENGINEER ANALYSTDESIGNER

ANSYS

3DS Simulia

COMSOL

MSC Marc

MSC Nastran

Siemens Nastran

SolidWorks Sim

Nastran In-CAD

MSC ApexANSYS AIM

Fusion 360/ Fusion 360 Ultimate

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Linear Statics

Linear statics is one of the most common types of analysis. Determine stress, strain, and deformation resulting from applied static loads and imposed constraints. Linear stress, strain, deflection Inertial relief Thermal stress and deflection Prestress Mass properties Multiaxial fatigue Linear statics is the easiest and most common class of FEA. It

provides the capability to simulate static loads and slowly applied loads.

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Buckling

Use buckling to assess the stability of a device under loads. Buckling examines structures for sudden failure modes caused by compressive forces. Critical loads and mode shapes Linear and nonlinear initial stress Linear buckling is computed with the Euler buckling formula. Use nonlinear buckling to simulate large deformations, contact

and nonlinear material behavior in calculation of buckling load.

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Prestress Static and Normal Modes

Use prestress static and normal modes to analyze structures subjected to initial stress, and model the effect of the initial stress state on the structures' displacements, stresses, and modes.

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Normal Modes

Use normal modes to determine the undamped natural mode shapes and frequencies of structures. This allows designer engineers to explore and resolve problems with noise and vibration. Natural frequencies and mode shapes Flexible and rigid body motion Modal participation factors, effective mass/weight, and

reaction forces Linear and nonlinear prestress (stiffening) Virtual fluid mass

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Linear Steady State Heat Transfer

Analyze heat transfer to determine the temperature distribution using the principles of conduction and convection heat transfer. Compute steady state and time-dependent heat loading using: Conduction Convection Radiation You can transfer temperature results to structural analyses as

thermal loads.

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Composites

Simulate the performance of complex ply data. Analysis based on latest failure indices, including Puck and LaRC02. Linear and nonlinear 2D and 3D laminated elements Especially suited for fiber reinforced materials Special failure techniques for sandwich composites Cohesive zone models for delamination failures Failure index and factor of safety calculations Many possible theories

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Assembly Modeling with Contact

Go beyond analyzing individual parts. Real world simulation of assemblies is possible with sophisticated modeling of different kinds of contact interactions including sliding, friction and welded contact types.

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Thermal Stress

Analyze structures subjected to thermal loads.

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Nonlinear Statics

Nonlinear statics provides the ability to add more realistic simulation with contacting parts, nonlinear elastic and plastic materials, and large deformations. Computes advanced nonlinear solutions such as large

displacements/rotation, large strain, plasticity, hyperelasticity, and creep.

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Nonlinear Transient Heat Transfer

Simulate heat transfer with nonlinear linear thermal boundary conditions that vary through time. An example is transient heat generation caused by power fluctuations. Conduction Convection Radiation

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Nonlinear Steady State Heat Transfer

Simulate heat transfer with nonlinear thermal boundary conditions such as temperature-dependent thermal properties.

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Random Response

Analyze structural behavior in response to random dynamic loads.

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Frequency Response

Dynamic solutions add the ability to include time and mass in the solution. Capabilities include: Enforced harmonic motion - frequency response Time dependent motion and loads - transient response Random excitation Shock loading Use frequency response to determine the structural harmonic

response based upon frequency-dependent loads.

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Linear and Nonlinear Transient Response Simulate the time-dependent response of a structure under the

influence of constant or time-dependent loads. An example is impulse loading.

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Advanced Nonlinear and Hyperelastic Materials Simulate complex nonlinear phenomena such as plasticity,

hyperelasticity, and shape-memory effect. This enables the analysis of a wide range of materials, from metals and shape-memory alloys to rubbers and soft tissue.

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Automated Impact Analysis (AIA) and Drop Test Simulate drop tests and other impact type loadings easily and

automatically. Define impacting parts, path, and velocity. Define initial conditions and loads, and run as a nonlinear transient analysis. Sophisticated treatment provides realistic and meaningful

impact and drop test simulations. The only inputs required are projectile velocity and acceleration.

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