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Duration

Category

Engineering

NSQF Level 6

ABOUT COURSE

KEY CONTENT THEMES

Finite Element Analysis (FEA), Design & Analysis, CAE, New Product Development Process

OTHER FEATURES

NSQF Level 6.

1 year access to E-learning, 1 year Ansys / HyperWorks student license, lifetime access to dsyn365.com learning & talent management system. Technical content for learning and career guidance on LMS/TMS, dsynPOST android app.

TESTIMONIAL COLLEGE LIST

SCTCE
CET
Mohandas
CoE-Perumon
TocH
LMCST,
Trinity
BJIT
Younus,
RIT-Ktym
Barton Hill College
Oxford-Bengaluru
Maharaja-Mysuru
Budapest TU - Hungary

INTERNSHIP & PLACEMENT LINKAGES

50 hours project internship
Skill mapping and job profiling as part of Talent-infusion (TalentrY)

CERTIFICATIONS

Altair & JAIN Skills

DELIVERY MODEL

Online / Classroom / E-learning / Hands-on training

TABLE OF CONTENT

Promo

WELCOME video

10:10

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Chapter 1 - Product Development Process

1.1 Expected Learning Outcome video

10:10

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1.2 Evolution Of Product Engineering video

10:10

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1.3 Product Life Cycle video

10:10

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1.4 Teams Involved in Product Life Cycle video

10:10

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1.5 Product Development Process video

10:10

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1.6 Quiz video

10:10

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1.7 Summary video

10:10

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Chapter 2 - Engineering Design and Design Evaluation

2.1 Expected Learning Outcome video

10:10

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2.2 Introduction to Design - SME Talk video

10:10

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2.3 Significance Of Design video

10:10

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2.4 Overview video

10:10

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2.5 Design Philosophy video

10:10

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2.6 Design Targets video

10:10

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2.7 Concept Of DFM video

10:10

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2.8 Concept of DFA video

10:10

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2.9 Emerging Trends in Design video

10:10

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2.10 Quiz video

10:10

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2.11 Importance Of Design in PD Process video

10:10

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2.12 Overview video

10:10

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2.13 Concept Development video

10:10

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2.14 Preliminary Design video

10:10

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2.15 Design Validation video

10:10

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2.16 Detailed Designing video

10:10

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2.17 Product Sign-off video

10:10

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2.18 Continous Improvement video

10:10

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2.19 Design Evaluation Techniques video

10:10

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2.20 Quiz video

10:10

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2.21 Significance of FEA video

10:10

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2.22 Overview video

10:10

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2.23 Pre-Processing video

10:10

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2.24 Solution Setup video

10:10

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2.25 Post-Processing video

10:10

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2.26 Introduction to HyperWorks video

10:10

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2.27 Quiz video

10:10

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2.28 Summary video

10:10

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Chapter 3 - Linear Static Analysis (LSA)

3.1 Chapter Layout video

10:10

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3.2 Expected Learning Outcome video

10:10

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3.3 Design Attribute Strength video

10:10

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3.4 Overview video

10:10

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3.5 Areas of Applicaton video

10:10

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3.6 Overview video

10:10

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3.7 Quiz video

10:10

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3.8 Approach video

10:10

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3.9 Model Creation video

10:10

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3.10 Quiz video

10:10

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3.11 Pre-Processing video

10:10

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3.12 Solving video

10:10

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3.13 Post-Processing video

10:10

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3.14 F.E. Analysis in Automotive Domain video

10:10

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3.15 Overview video

10:10

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3.16 Basic Structure video

10:10

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3.17 Types of Structures video

10:10

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3.18 Types of Loading video

10:10

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3.19 Quiz video

10:10

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3.20 Governing Physics video

10:10

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3.21 Overview video

10:10

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3.22 Analysis of internal Forces video

10:10

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3.23 Assess Boundary Conditions video

10:10

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3.24 Calculation of Bending Moment video

10:10

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3.25 Static Analysis in Other Domains video

10:10

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3.26 Quiz video

10:10

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3.27 Exercise Problems video

10:10

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3.28 Practical Designing video

10:10

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3.29 Launching HyperMesh video

10:10

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3.30 Creation of Model in HyperMesh video

10:10

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3.31 Create Mesh video

10:10

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3.32 Delete Duplicate ndes / lines video

10:10

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3.33 Create Material video

10:10

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3.34 Create Property Collector video

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3.35 Create Load Collector video

10:10

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3.36 Quiz video

10:10

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3.37 Renumbering of nodes / Elements / Components video

10:10

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3.38 Create Constraints video

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3.39 Creation of Point Load at the Free End video

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3.40 Creatin of a RADIOSS subcase video

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3.41 Submitting Job video

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3.42 View Displacement Plot video

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3.43 View Stress Contour Plot video

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3.44 Alternate way to view Contour Plots video

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3.45 View Deformed Shape video

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3.46 Best Practices video

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3.47 Quiz video

10:10

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3.48 Assignments video

00:00

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3.49 Try out Yourself video

10:10

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3.50 Summary video

10:10

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Chapter 4 - Non-Linear Static Analysis (NLA)

4.1 Chapter Layout video

10:10

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4.2 Expected Learning Outcomes video

10:10

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4.3 Design Attribute - Rigidity video

10:10

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4.4 Overview video

10:10

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4.5 Area of Application video

10:10

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4.6 Overview video

10:10

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4.7 Approach video

10:10

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4.8 Model Generation video

10:10

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4.9 Pre-processing video

10:10

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4.10 Post-Processing video

10:10

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4.11 F.E. Analysis in Consumer Domain video

10:10

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4.12 Quiz video

10:10

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4.13 Overview video

10:10

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4.14 Governing Physics video

10:10

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4.15 Design of Columns video

10:10

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4.16 Analysis of Forces in a column video

10:10

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4.17 Non Linear Application in other Domains video

10:10

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4.18 Quiz video

10:10

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4.19 Overview video

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4.20 Launching HyperMesh video

10:10

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4.21 Create Geometric Model video

10:10

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4.22 Create Material Collector video

10:10

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4.23 Update Component Collector video

10:10

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4.24 Create Load Collectors video

10:10

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4.25 Create Loads and Boundary Conditions for Model video

10:10

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4.26 Create a RADIOSS Loadstep video

10:10

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4.27 Run both Linear and Buckling Analysis video

10:10

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4.28 View results: Von Mises Contour video

10:10

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4.29 View results: Deformed Shape video

10:10

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4.30 Quiz video

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4.31 Assignments video

10:10

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4.32 Try out Yourself video

10:10

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4.33 Summary video

10:10

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Chapter 5 - Vibration Analysis (VA)

5.1 Chapter Layout video

10:10

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5.2 Expected Learning Outcomes video

10:10

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5.3 Design Attribute- Durability video

10:10

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5.4 Overview video

10:10

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5.5 Areas of Applicaton video

10:10

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5.6 Overview video

10:10

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5.7 Quiz video

10:10

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5.8 Approach video

10:10

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5.9 Pre-Processing video

10:10

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5.10 Post-Processing video

10:10

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5.11 Quiz video

10:10

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5.12 F.E. Analysis of Different Types of Bridges video

10:10

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5.13 Overview video

10:10

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5.14 Types of Vibration video

10:10

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5.15 Quiz video

10:10

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5.16 Governing Physics video

10:10

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5.17 Design Rule and Equations video

10:10

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5.18 Overview video

10:10

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5.19 Vibration analysis of Spring video

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5.20 Quiz video

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5.21 Vibration Analysis in other Domains video

10:10

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5.22 Exercise Problems video

10:10

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5.23 Practical Designing video

10:10

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5.24 Launching HyperMesh video

10:10

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5.25 Create Geometric Model video

10:10

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5.26 Create Material video

10:10

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5.27 Create Element Properties video

10:10

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5.28 Create Load Collectors video

10:10

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5.29 Create Boundary Conditions video

10:10

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5.30 Run Modal Analysis video

10:10

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5.31 Post- Processing Initial Results using HyperView video

10:10

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5.32 Reload Model File video

10:10

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5.33 Create Stiffener video

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5.34 Create Rib video

10:10

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5.35 Creating / Ensuring Connectivity between Stiffener and Rib video

10:10

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5.36 Creating Connectivity between Stiffener / Rib and Roof plate video

10:10

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5.37 Create Material for Stiffener and Rib video

10:10

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5.38 Create Element Properties video

10:10

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5.39 Run Modal Analysis video

10:10

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5.40 Post-Processing Initial results video

10:10

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5.41 Quiz video

10:10

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5.42 Assignments video

10:10

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5.43 Try out Yourself video

10:10

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5.44 Summary video

10:10

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Chapter 6 - HyperWorks & Project

6.1 Expected Learning Outcomes video

00:00

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6.2 Overview video

00:00

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6.3 HyperMesh video

00:00

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6.4 HyperCrash video

00:00

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6.5 BatchMesher video

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6.6 MotionView video

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6.7 RADIOSS video

00:00

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6.8 MotionSolve video

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6.9 OptiStruct video

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6.10 AcuSolve video

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6.11 Hyperview video

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6.12 HyperGraph video

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6.13 HyperMath video

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6.14 HyperStudy video

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6.15 HyperForm video

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6.16 HyperXtrude video

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6.17 SolidThinking video

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6.18 Altair videos video

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6.19 Project Initiation video

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6.20 Summary video

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Chapter 7 - Thermal Analysis (TA)

7.1 Chapter Layout video

00:00

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7.2 Expected Learning Outcomes video

00:00

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7.3 Design Attribute - Thermal Conductivity video

00:00

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7.4 Overview video

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7.5 Areas of Application video

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7.6 Overview video

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7.7 Approach video

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7.8 Pre-Processing video

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7.9 Post- Processing video

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7.10 FE Analysis in same Domain video

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7.11 Quiz video

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7.12 Overview video

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7.13 Overview video

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7.14 Governing Phyics video

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7.15 Design Rule and Equations video

00:00

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7.16 Analysis of standard product - Pipes video

00:00

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7.17 Thermal analysis in other domains video

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7.18 Quiz video

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7.19 Overview video

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7.20 Launch HyperMesh video

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7.21 Create Geometric Model of Tail Pipe video

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7.22 Create Finite Element Model of Tail Pipe video

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7.23 Create Material of Tail Pipe video

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7.24 Update Component Collector video

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7.25 Create a Load Collector video

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7.26 Boundary Conditons for Model video

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7.27 Create RADIOSS Subcase or Loadstep video

00:00

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7.28 Run Heat Transfer Analysis video

00:00

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7.29 Post-Processing Initial Results video

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7.30 Post-Processing Initial Results video

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7.31 Assignments video

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7.32 Try Out Yourself video

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7.33 Summary video

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Chapter 8 - Fatigue Analysis (FA)

8.1 Chapter Layout video

00:00

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8.2 Expected Learning Outcomes video

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8.3 Design Attribute - Fatigue video

00:00

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8.4 Overview video

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8.5 Areas of application video

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8.6 Quiz video

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8.7 Overview video

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8.8 Approach video

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8.9 Model Description video

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8.10 Pre-Processing video

00:00

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8.11 Post-Processing video

00:00

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8.12 F.E Analysis in Automotive Domain video

00:00

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8.13 Quiz video

00:00

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8.14 Overview video

00:00

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8.15 Governing Physics video

00:00

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8.16 Measurement of Fatigue video

00:00

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8.17 Design Rule and Equations video

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8.18 Quiz video

00:00

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8.19 Fatigue Analysis in Other domains video

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8.20 Exercise Problem video

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8.21 Practical Designing video

00:00

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8.22 Launching HyperMesh video

00:00

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8.23 Create Geometric Model video

00:00

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8.24 Create Material video

00:00

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8.25 Update Component Collector video

00:00

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8.26 Create Load Collectors video

00:00

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8.27 Create Boundary Conditions video

00:00

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8.28 Create RADIOSS Subcase or Loadstep video

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8.29 Defining TABLEFAT Cards video

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8.30 Defining FATLOAD Cards video

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8.31 Defining FATEVENT Cards video

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8.32 Defining FATSEQ Card video

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8.33 Defining Fatigue Parameters video

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8.34 Defining Fatigue Material Properties video

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8.35 Defining PFAT Card video

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8.36 Defining FATEF Card video

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8.37 Defining Fatigue Load Case video

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8.38 Submitting RADIOSS video

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8.39 Quiz video

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8.40 Assignments video

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8.41 Summary video

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Chapter 9 - Kinematic Analysis (KA)

9.1 Chapter Layout video

00:00

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9.2 Expected Learning Outcomes video

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9.3 Design Attribute - Kinematics video

00:00

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9.4 Overview video

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9.5 Areas of Applicaton video

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9.6 Quiz video

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9.7 Overview video

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9.8 Approach video

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9.9 Model Description video

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9.10 Post-Processing video

00:00

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9.11 F.E Analysis in Aerospace Domain Domain video

00:00

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9.12 Quiz video

00:00

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9.13 Overview video

00:00

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9.14 Types of Mechanisms video

00:00

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9.15 Design Rule and Equations video

00:00

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9.16 Quiz video

00:00

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9.17 Analysis of standard product - 4 bar Linkage video

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9.18 Kinematic Analysis in other Domains video

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9.19 Quiz video

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9.20 Exercise Problems video

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9.21 Practical Designing video

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9.22 Launching HyperMesh video

00:00

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9.23 Retrieve HyperMesh Model File video

00:00

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9.24 Create PRBodies video

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9.25 Create PFBodies video

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9.26 Create Joints video

00:00

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9.27 Create DTI, UNITS video

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9.28 Define MBSIM and INVELB video

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9.29 Create RADIOSS Subcase or Loadstep video

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9.30 Submitting RADIOSS Analysis and viewing Results video

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9.31 Review a Contour Plot of Displacement and Stress video

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9.32 Summary video

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Chapter 10 - Virtual Product Development (VPD)

10.1 Virtual Product Development video

00:00

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10.2 Career guidance video

00:00

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Price

₹ 25,000

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Course Features

Language: English

Delivery Model
Online , Classroom , E-Learning , Hands-on training ,

Certifications
JAIN Skills , Altair ,

Ideal Student Profile
Final or Pre-Final Year UG/PG & graduates of Mechanical Engineering streams (<30 years age)

dsynXPO