Techzilon Training Solutions

Master Diploma in Ansys Workbench

Develops Industry-oriented skills on Meshing, Structural, Dynamic and Non-linear simulations. Classroom based training with practical coverage on Theory, FEM & SOM

      Master Diploma Program
     Offline Training (Classroom course)
     Classes on Weekdays
     Course code: CR-ANS03


       Experienced Instructors
       Project based Training
       Domain Based (auto, aero) curriculum
       Industry Recognised Certification
       Regular assignments & assessments
       Cloud-based online learning materials & tests

    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 six modules:
    ANS1 – Geometry preparation & Meshing Techniques using ANSYS Design Modeler
    ANS2 – Structural Simulations using ANSYS Solver
    ANS3 – Advanced Geometry & Meshing Techniques using ANSYS Design Modeler
    ANS4 – Thermal & Dynamic Analysis using ANSYS Solver
    ANS5 – Assembly Modeling & Meshing using ANSYS Design Modeler
    ANS6 – Buckling & Non-linear Contact Analysis using ANSYS Solver
    FREE Module:
    Value Addition Module – Meshing & Analysis using Hypermesh & Radioss (Nastran)
    This course covers:
       Geometry preparation using HYPERMESH & ANSYS
       Meshing generation techniques
       Structural Analysis using RADIOSS (NASTRAN) & ANSYS
       Post-processing using HYPERVIEW & RADIOSS
       Special-techniques used for Meshing thin-shell structures like plastics, BIW, sheet-metals etc.
       Generate mesh for CFD analysis
       Modal and thermal analysis of structures
       Assembly-meshing of multiple components
       Buckling analysis of structures
       Non-linear Contact analysis

    Classroom sessions :    40 Hours
    Practical sessions :    150 Hours
    Online tests :    Topic-wise
    Industry Oriented Project :    45 Hours
    Special sessions for Interview Preparation

    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.

    On successful completion of this course, you will be able to Build FE models as per industry requirements, Perform various analysis & Develop Job skills.You will also learn the following:
       Fundamentals of Finite Element Methods (FEM)
       Overview of Structural Analysis
       How to Import and align the geometry
       Prepare the geometry for FE modelling
       Create & modify various geometric-entities
       Create & edit different types of FEM entities like nodes, elements etc.
       Generate shell-mesh with 2D elements
       Generate solid-mesh with 3D elements
       Build Hybrid FE models using 2D & 3D elements
       Ensure mesh-quality
       Theoretical & Practical overview of Structural Analysis
       Perform Static Analysis of Structural Systems
       Accomplish domain-based projects on Meshing & Analysis
       FE modeling of Sheet-metals, BIW, Plastic components etc.
       The solutions to the problems faced during mid-surface extraction
       Mid-surface meshing of components from different domains
       Establish the natural-frequencies & vibration-modes of structures
       Perform Thermal analsysis
       Simulation of Advanced Structural Behaviour
       Non-linear beheaviour of structures
       Contact Non-linearities
       Understand the types of contacts
       Perform contact simulations
       Perform Buckling analysis
       Accomplish domain-based project on assembly meshing & non-linear analysis

          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  ↓↓↓

    Geometry preparation & Meshing Techniques using ANSYS

    Part modeling Techniques
    2D sketching, creating planes, sketch instances.
    Shared topologies
    Cleanup, Connect & Repair Operations
    Topology Alignment
    Model Estimation Methods
    Meshing: Element-type definitions
    3D Mesh generation
    Mesh Control Techniques
    Size & Shape Check
    Assignments & Evaluation on Geometry & meshing
    Project on Geometry & meshing of Auto, Aero or Industrial systems

    Structural Simulations using ANSYS

    Structural analysis of Aero & Automotive systems
    Industrial Approach to Design & Validation
    Introduction to FEA
    Work flow in CAE simulations
    Introduction to Strength of materials
    Linear Static Analysis – Theory & Practice
    Design validation of drive-shaft of an LCV Truck using structural analysis
    Failure-mode prediction of a pressure-vessel using FE analysis with analytical correlation
    Estimation of Load-carrying capacity of the lower control-arm of a heavy-truck using simulations
    Results processing & interpretation
    Results Correlation & Documentation
    Project on Linear Static Analysis of Auto, Aero or Industrial systems

    Advanced Geometry & Meshing Techniques using ANSYS

    2-D Meshing Techniques for thin parts
    Mid-surface extraction and meshing of plastic components
    Mid-surface extraction and meshing of BIW, sheet-metal components like chassis etc.
    1-D Meshing Techniques
    Introduction to 1D elements
    FE modeling of SAE baja frame using 1D elements
    Assembly Meshing Techniques
    Connections – modeling spot-welds, bolts etc.
    Contacts – Linear and Bonded contact modeling
    FE modeling of a Shaft using text files
    Introduction to MPC & remote loading
    Assembly meshing of an wing box with shear clips using bolts
    Spot weld generation using connector tool.
    Seam weld generation for a chassis frame using connector tool.
    Mesh Generation Techniques for Stress / Durability Analysis
    Project on assembly meshing of auto, aero or Industrial systems

    Thermal & Dynamic Analysis using ANSYS

    Normal modes of vibration
    Solution methodology-Eigenvalue & eigen vector, lanczos method
    Introduction to Vibrations
    Introduction to Modal analysis
    Vibration Analysis of a rotor.
    Modal Analysis of a Brake-disc
    Introduction to Pre-stressed analysis
    Pre-stressed modal analysis of turbine blade
    Introduction to Frequency response analysis
    Harmonic analysis of a rotor system
    Introduction to Thermal analysis
    Thermal Analysis – Conduction Heat-transfer in a friction-ring
    Thermal-mapping of a friction-ring
    Project on Thermal & Dynamic analysis

    Assembly Modeling & Meshing using ANSYS

    Introduction to solid editing
    Creating mappable solids for 3D meshing
    Introduction to sweep meshing
    Slicing solid-bodies
    Local sizing-controls for face, edge & body
    Mesh-controls for Mapped faces
    Multizone meshing
    Mesh automation
    3D hexa meshing techniques- sphere, T pipe, Block with cuts
    3D hexa meshing of door hinge bracket
    3D hexa meshing of a control arm
    Brick meshing of Solenoid body
    Introduction to CFD meshing
    CFD meshing of exhaust manifold
    Exporting case file for ANSYS & FLUENT Solvers
    Project on Hexa Meshing

    Buckling & Non-linear Contact Analysis using ANSYS

    Introduction to Non-Linear Analysis
    Solution methodologies for non-linear analysis
    Types of non-linearities
    Non-linear Contact analysis
    Non-Linear contact Analysis of fuel-tank bracket on a chassis
    Modeling contact pairs for a typical 3D bolted joint on a flange
    Large Displacement analysis
    Geometric non-linear analysis
    Bi-Linear plastic analysis of the sub-assembly of a chassis
    Introduction to buckling analysis
    Analytical solutions of buckling of coloumns
    Prediction of Buckling in a Truss using Linear buckling analysis
    Preventing the Collapse of a Piping system using Linear buckling analysis
    Project on Non-linear Analysis

    Meshing & Analysis using Hypermesh & Radioss (Nastran)

    Introduction to Hypermesh and Radioss
    Importing Geometry,CAD,GUI
    Geometry preparation
    Model evaluation
    Topology cleanup operations for Automotive components
    2D Meshing
    2D Meshing of sheet-metal components
    Quality parameters
    Mesh quality checking and correction
    3D Meshing
    Introduction to 3D elements
    Volumetric tetra meshing
    Refining tetra mesh
    Linear Static Analysis of Control arm
    Introduction to LSA
    Introduction to Radioss Bulk data entry
    Running Analysis
    Post Processing
    Normal Mode Analysis Of Machine Frame
    Intoduction of normal mode analysis
    Solution process for normal mode analysis
    Analysis settings & solving
    Extracting various modes of vibrations


    About Techzilon

    TECHZILON, with its strong experience offers rich-guidance and can help you achieve your career goals. TECHZILON has articulately designed the courseware by keeping in mind the requirements and expectations of the industry. The training would not only increase the theoretical understanding of the students, but will also enrich them by imparting applied and practical knowledge which is used in real industries. This will be achieved through hands on learning, training on live scenario projects and interaction with practicing industry experts.Our expert team can help you get onboard a job with leading MNCs in India and Abroad.

    TECHZILON : Authorised Training Partners for HYPERMESH & ANSYS WORKBENCH

    january, 2021

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