Mastering Ansys With Finite Element Analysis V.2

What you'll learn
Studnets willl be able to express modeling and its role in the field of Vibration and heat transfer problems.
Students will be able to apply the various discretization methods, solution procedures to solve vibration and heat transfer problems.
Students will be able to interpret the knowledge, capability of analyzing and solving any problem associated with heat energy dynamics and utilization
Students will be be able to generate models for finite element analysis using ANSYS Mechanical APDL
Students will understand and conclude from the analysis results.
They will be able to illustrate the working concepts of vibration and thermal engineering.
Be able to Analyze and Solve any complex vibrational Problem using ANSYS Mechanical APDL
Be able to Analyze and solve any Thermal Engineering Problem using ANSYS Mechanical APDL
Requirements
Should have a grasp on thermal Engineering, Vibrational theory and conception and a bit of theoretical understanding on Finite Element Analysis
Description
ANSYS Mechanical APDL for Finite Element Analysis provides a hands-on introduction to engineering analysis using one of the most powerful commercial general purposes finite element programs. APDL is the foundation for all sophisticated features, many of which are not exposed in the Workbench Mechanical user interface. Students will find a practical and integrated approach that combines finite element theory with best practices for developing, verifying, validating and interpreting the results of finite element models, while engineering professionals will appreciate the deep insight presented on the program's structure and behavior. Ansys Mechanical finite element analysis software is used to simulate computer models of structures, electronics, or machine components for analyzing strength, toughness, elasticity, temperature distribution, fluid flow, and other attributes. Ansys is used to determine how a product will function with different specifications, without building test products or conducting crash tests.This course introduces new users, or experienced Ansys Mechanical users, to the Ansys Mechanical APDL user interface. The Mechanical APDL workflow, graphical user interface, and analysis of simple mechanical components. With this foundation in place, users can apply this knowledge to efficiently set up, solve, and post process virtually any type of analysis. This course work is divided into two sections. First section contains Vibrational analysis of Real-world Engineering problems using ANSYS Mechanical APDL. Second section contains FEA Thermal Analysis using ANSYS Mechanical APDL. In this coursework eighteen videos are there containing practical applications of various types of Analysis. The most important part is together with Analysis using ANSY Mechanical APDL theoretical validation for important problems have also been shown using Finite Element Analysis. Course includes the following contents:Theoretical Validation and Practical Applications of FEA Vibrational Analysis using ANSYS Mechanical APDL01 FEA Modal Analysis and theoretical Validation of a Fixed Beam02 FEA Analysis of a Fixed Beam with Lumped Mass and its Theoretical validation03 FEA Analysis of a Simply Supported Beam with Lumped Masses and its theoretical Validation04 FEA Harmonic Analysis of a Stepped Bar using ANSYS Mechanical APDL05 FEA Harmonic Analysis of a Stepped Bar under Cyclic Loading06 FEA Harmonic Analysis of a Fixed Beam under Cyclic Loading07 FEA Transient Analysis of a Beam under Step LoadingTheoretical Validation and Practical Applications of FEA Thermal Analysis using ANSYS Mechanical APDL08 FEA Thermal Analysis of a Composite Slab and its Theoretical Validation09 FEA Thermal Analysis of a Furnace with Convection and Conduction10 FEA Thermal Analysis of a Composite Wall and its Theoretical Validation11 FEA Thermal Analysis of a Bar with Constant Heat Flux & its Theoretical Validation12 FEA Thermal Analysis of a Member with insulated top & bottom13 FEA Thermal Analysis of a Composite Cylinder 14 FEA Thermal Analysis of an L shaped object with different boundary conditions 15 FEA Thermal Analysis of a Chimney using Structured and Normal Meshing Techniques16 FEA Thermal Analysis of a Thin Film17 Thermal analysis of a concentric hemi spherical vessel and its Validation18 FEA Thermal Analysis of a Duct with Segmented Element
Overview
Section 1: Introduction
Lecture 1 Introduction
Lecture 2 FEA Modal Analysis of a Fixed Beam & its theoretical Validation
Lecture 3 FEA Analysis of a Fixed Beam with Lumped Mass and its Theoretical validation
Lecture 4 FEA Analysis of a Simply Supported Beam with Lumped Masses and its Validation
Lecture 5 FEA Harmonic Analysis of a Stepped Bar using ANSYS Mechanical APDL
Lecture 6 FEA Harmonic Analysis of a Stepped Bar under Cyclic Loading
Lecture 7 FEA Harmonic Analysis of a Fixed Beam under Cyclic Loading
Lecture 8 FEA Transient Analysis of a Beam under Step Loading
Section 2: Thermal Analysis
Lecture 9 FEA Thermal Analysis of a Composite Slab and its Theoretical Validation
Lecture 10 FEA Thermal Analysis of a Furnace with Convection and Conduction
Lecture 11 FEA Thermal Analysis of a Composite Wall and its Theoretical Validation
Lecture 12 FEA Thermal Analysis of a Bar with Constant Heat Flux & its validation
Lecture 13 FEA Thermal Analysis of a Member with insulated top & bottom
Lecture 14 FEA Thermal Analysis of a Composite Cylinder
Lecture 15 FEA Thermal Analysis of an L shaped object with different boundary conditions
Lecture 16 FEA Thermal Analysis of a Chimney using Structured and Normal Meshing Techniques
Lecture 17 FEA Thermal Analysis of a Thin Film
Lecture 18 Thermal analysis of a concentric hemi spherical vessel & its Validation
Lecture 19 FEA Thermal Analysis of a Duct with Segmented Element
Engineering students who want to start their career as a Design Engineer or CAD/CAE/CFD professional can have enough confidence from this course. Engineering Professionals who are already working in industry. Any CAD/CAM/CAE Professional


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