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Structural Analysis (CAE) and Meshing - ANSYS Workbench
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Structural Analysis (CAE) and Meshing – ANSYS Workbench
Developes Advanced skills on Meshing and Structural simulations. Interactive classroom sessions on weekends. Live models for practise. Experienced Trainers. Instuctional Videos. Live Project with Industry oriented approach. Practical coverage on Theory, FEM & SOM.
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Using ANSYS WORKBENCH
| Advanced Level Program |
| Offline Training (Classroom course) |
| Classes on Weekends |
| Course code: CW-ANS01 |
| Experienced Instructors |
| Industry Recognised Certification |
| Project based Training |
| Regular assignments & assessments |
| Domain Based (auto, aero) curriculum |
| Cloud-based online learning materials |
All our courses are designed by a team of highly experienced professionals from the Industry
This course will provide the Advanced skills & special-techniques on Industry-oriented meshing and analysis, needed to become a successful Analysis Engineer.
| This course has nine modules: |
| Module 1 – Part Modeling |
| Module 2 – Geometry Cleanup |
| Module 3 – Mid-surface Processing |
| Module 4 – 3D Tetra Meshing |
| Module 5 – Meshing Controls |
| Module 6 – Meshing & Assembly Techniques |
| Module 7 – Linear Static Analysis |
| Module 8 – Post Processing |
| Module 9 – Normal Modes OR Modal Analysis |
| Classroom sessions | : 48 hours |
| Online Videos | : 10 Videos |
| Assignments | : Topic-wise |
| Model Assessments | : Module-wise |
| Online Assessments | : Session-wise MCQ’s |
| Project | : 15 hours |
| ANSYS is used thoughout the industry by leading companies like General Electric, Embraer, HCL, Infotech, Rockwell Automation, Invensys, Mercedes Benz, Petrobras, General Motors, Caterpillar, Tata Motors, Honda, Boeing, Goodrich Aerospace, Airbus, Mahindra, Nissan etc. |
| ANSYS is industry leading simulations software used to build FE models and analyse a variety of analyses like Structural Analysis, Flow & Thermal Analysis etc. |
| Working Professionals, Students & Fresh graduates (BE/ME in Mech, Aero, Auto) seeking an entry into the design field |
| CAD engineers who wish to upgrade to Analysis-field and move ahead in their career |
| Team Leads and managers who want to add ‘Analysis-projects’ into their portfolio |
| This course does NOT need prior knowledge of any CAD software |
| Pre-requisite: Nil |
↓↓↓ Refer to Modules listed below ↓↓↓
Part Modeling
| Introduction to ANSYS WORKBENCH |
| Importing geometry, CAD, GUI |
| Modeling |
| – Introduction to Design modeller |
| – Project Schematic operations |
| – Sketching |
| – Planes |
| – Draw |
| – Modify |
| – Dimensions |
| – Constriants |
| Part Modeling of machine components |
| – Extrude |
| – Sweep |
| – Revolve |
| – Loft/skin |
| – Thin/surface, blend, chamfer |
Geometry Cleanup
| Geometry cleanup using Design modeler |
| – Body operations, sew |
| – Edge connection |
| – Face merging |
| – Face split |
| – Surface patch |
| – Surface flip |
| – Projection |
| – Repair tools |
| Body operations, sew |
| – Freezing & unfreezing |
| – Slicing operations on solids |
| – Boolean operations |
| – Patterning features |
Mid-surface Processing
| Introduction to midsurface |
| Midsurface Extraction of sheet metal components |
| – Auto midsurface generation of bracket |
| – Editing |
| – Midsurface using thin/surface method |
| – Parts & bodies |
| – Share topology |
| Preparing geometry for meshing |
| – Linking MECHANICAL module to geometry |
3D Tetra Meshing
| Meshing methods |
| – Sweep meshing of T joint pipe |
| – Tetra meshing of a solenoid |
| – Multizone meshing |
| – Mapped face meshing controls |
| – Element shape checking |
| Line body meshing |
Meshing Controls
| Global mesh controls |
| Local meshing controls |
| sizing controls |
| Contact sizing |
| Pinch controls |
Meshing & Assembly Techniques
| Defining Engineering data |
| Application Interface |
| Define part behaviour & material data |
| Defing connections-contacts |
| Types of contact algoritms |
| – Contact settings |
| – Coordinate systems |
| – Creating Bolted joints |
| – Spot welding |
Linear Static Analysis
| Analysis Settings |
| Loads & Boundary conditions |
| – Applying loads |
| – Point load |
| – Pressure load |
| – Remote loads |
| – Applying Boundary conditions |
| – Fixed boundary conditions |
| – Frictionless support |
| Using coordinates systems for applying BCs |
| Running Analysis |
| – Solving the FE model – Impeller assembly |
| – Checking the out file |
| – Post processing |
| – Inserting the required solution output |
Post Processing
| Post Processing |
| – Plotting deformed models |
| – Plotting stresses |
| – Vonmises |
| – Principal |
| – Component stresses |
| – User defined coordinate systems for plotting stresses & deformations |
Normal Modes OR Modal Analysis
| Introduction to Normal modes analysis |
| – Normal modes analysis of Machine frame |
| – Solution process for normal modes analysis |
| – Analysis settings |
| – Solving |
| – Extracting various modes of vibration |
| – Common errors |
| – Using worksheet |
| – Object generator |
