Vibration and Thermal Analysis with ANSYS: Theory & Practice
Vibration and Thermal Analysis with ANSYS: Theory & Practice, available at $44.99, has an average rating of 4.6, with 19 lectures, based on 27 reviews, and has 193 subscribers.
You will learn about Develop a comprehensive understanding of Finite Element Analysis (FEA) applied to vibration and thermal phenomena using ANSYS. Gain proficiency in utilizing ANSYS Mechanical APDL, a powerful commercial general-purpose finite element program. Acquire practical skills for developing, verifying, validating, and interpreting finite element models. Learn industry best practices for analyzing strength, toughness, elasticity, temperature distribution, and fluid flow in structures, electronics, & components Master modal analysis and theoretical validation techniques for fixed beams, beams with lumped masses, and simply supported beams. Gain expertise in harmonic analysis of stepped bars and fixed beams under cyclic loading. Acquire the ability to perform transient analysis of beams subjected to step loading. Understand theoretical validation and practical applications of thermal analysis using ANSYS Mechanical APDL. Learn techniques for thermal analysis of composite slabs, furnaces with convection and conduction, composite walls, and bars with constant heat flux. Enhance your problem-solving skills through real-world applications of various analysis types presented in the course. Develop the ability to validate analysis results using Finite Element Analysis (FEA) alongside ANSYS Mechanical APDL. Acquire the knowledge and skills to confidently tackle complex vibration and thermal analysis challenges in engineering. Obtain a solid foundation in FEA that can be applied to virtually any type of analysis. Understanding normal and structured meshing techniques Expand your professional capabilities and increase your value in the engineering industry. This course is ideal for individuals who are 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 It is particularly useful for 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.
Enroll now: Vibration and Thermal Analysis with ANSYS: Theory & Practice
Summary
Title: Vibration and Thermal Analysis with ANSYS: Theory & Practice
Price: $44.99
Average Rating: 4.6
Number of Lectures: 19
Number of Published Lectures: 19
Number of Curriculum Items: 19
Number of Published Curriculum Objects: 19
Original Price: $39.99
Quality Status: approved
Status: Live
What You Will Learn
- Develop a comprehensive understanding of Finite Element Analysis (FEA) applied to vibration and thermal phenomena using ANSYS.
- Gain proficiency in utilizing ANSYS Mechanical APDL, a powerful commercial general-purpose finite element program.
- Acquire practical skills for developing, verifying, validating, and interpreting finite element models.
- Learn industry best practices for analyzing strength, toughness, elasticity, temperature distribution, and fluid flow in structures, electronics, & components
- Master modal analysis and theoretical validation techniques for fixed beams, beams with lumped masses, and simply supported beams.
- Gain expertise in harmonic analysis of stepped bars and fixed beams under cyclic loading.
- Acquire the ability to perform transient analysis of beams subjected to step loading.
- Understand theoretical validation and practical applications of thermal analysis using ANSYS Mechanical APDL.
- Learn techniques for thermal analysis of composite slabs, furnaces with convection and conduction, composite walls, and bars with constant heat flux.
- Enhance your problem-solving skills through real-world applications of various analysis types presented in the course.
- Develop the ability to validate analysis results using Finite Element Analysis (FEA) alongside ANSYS Mechanical APDL.
- Acquire the knowledge and skills to confidently tackle complex vibration and thermal analysis challenges in engineering.
- Obtain a solid foundation in FEA that can be applied to virtually any type of analysis.
- Understanding normal and structured meshing techniques
- Expand your professional capabilities and increase your value in the engineering industry.
Who Should Attend
- 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
Target Audiences
- 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
Course Description: Delve into the intricacies of finite element analysis (FEA) applied to vibration and thermal problems through my meticulously crafted UDEMY course, “Finite Element Analysis of Vibration and Thermal Problems using ANSYS and its Theoretical Validation.” Embark on a transformative journey where you will gain comprehensive insights into engineering analysis techniques, leveraging ANSYS, a cutting-edge commercial general-purpose finite element program.
Unlock the potential of ANSYS Mechanical APDL, the bedrock of advanced functionalities concealed within the Workbench Mechanical user interface. Regardless of your background, be it a novice or an experienced Ansys Mechanical user, this course provides a hands-on introduction to the powerful world of FEA. Immerse yourself in a practical and integrated learning experience, seamlessly blending finite element theory with industry best practices for model development, verification, validation, and result interpretation.
Engineers and professionals will relish the profound comprehension this course offers, unraveling the structure and behavior of the ANSYS program. Witness its prowess as we simulate computer models of structures, electronics, and machine components, enabling analysis of attributes such as strength, toughness, elasticity, temperature distribution, fluid flow, and more. Gone are the days of building physical prototypes or conducting crash tests to predict product functionality; ANSYS empowers you to envision various specifications and determine product performance without materializing them physically.
The course comprises two distinct sections, each addressing critical aspects of engineering analysis. The first section immerses you in vibrational analysis of real-world engineering problems using ANSYS Mechanical APDL. Master the nuances of modal analysis and delve into the theoretical validation of a fixed beam, a fixed beam with lumped mass, and a simply supported beam with lumped masses. Explore the harmonic analysis of a stepped bar under cyclic loading and a fixed beam subjected to cyclic loading. Gain expertise in the transient analysis of a beam subjected to step loading.
In the second section, we shift our focus to FEA thermal analysis employing ANSYS Mechanical APDL. Demystify the complex world of thermal phenomena as we investigate the theoretical validation and practical applications of FEA thermal analysis. Dive deep into topics such as thermal analysis of a composite slab, furnace analysis with convection and conduction, composite wall analysis, and thermal analysis of bars with constant heat flux. Furthermore, unravel the secrets of analyzing members with insulated tops and bottoms, composite cylinders, L-shaped objects with different boundary conditions, chimneys using structured and normal meshing techniques, thin films, concentric hemispherical vessels, and ducts with segmented elements.
Throughout the course, you will find an extensive collection of eighteen video modules, each accompanied by real-world applications of diverse analysis types. Moreover, I take great pride in presenting theoretical validations using finite element analysis alongside ANSYS Mechanical APDL.
Unlock the realm of engineering analysis excellence and equip yourself with the knowledge and skills to tackle the most intricate vibration and thermal challenges with confidence. Enroll in my UDEMY course, “Finite Element Analysis of Vibration and Thermal Problems using ANSYS and its Theoretical Validation,” and embark on a journey that will redefine your understanding of FEA.
Course Curriculum
Chapter 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
Chapter 2: Thermal Analysis
Lecture 1: FEA Thermal Analysis of a Composite Slab and its Theoretical Validation
Lecture 2: FEA Thermal Analysis of a Furnace with Convection and Conduction
Lecture 3: FEA Thermal Analysis of a Composite Wall and its Theoretical Validation
Lecture 4: FEA Thermal Analysis of a Bar with Constant Heat Flux & its validation
Lecture 5: FEA Thermal Analysis of a Member with insulated top & bottom
Lecture 6: FEA Thermal Analysis of a Composite Cylinder
Lecture 7: FEA Thermal Analysis of an L shaped object with different boundary conditions
Lecture 8: FEA Thermal Analysis of a Chimney using Structured and Normal Meshing Techniques
Lecture 9: FEA Thermal Analysis of a Thin Film
Lecture 10: Thermal analysis of a concentric hemi spherical vessel & its Validation
Lecture 11: FEA Thermal Analysis of a Duct with Segmented Element
Instructors
-
Sabyasachi Majumder
Mechanical Engineering Professional
Rating Distribution
- 1 stars: 0 votes
- 2 stars: 1 votes
- 3 stars: 2 votes
- 4 stars: 4 votes
- 5 stars: 20 votes
Frequently Asked Questions
How long do I have access to the course materials?
You can view and review the lecture materials indefinitely, like an on-demand channel.
Can I take my courses with me wherever I go?
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