
This video is a lecture on Steps Involved in FEA in Finite Element Analysis Course. It discusses about the steps involved in solving a FEA problem namely, discretization, E.M.E., Assembly, Boundary Conditions, Solution and Post-Processing and how to minimise error and get better solutions.
This video is a lecture on Advantages of FEA in Finite Element Analysis Course. It discusses about the Advantages of FEA and how to minimise error and get better solutions.
This video is a lecture on Disadvantages of FEA in Finite Element Analysis Course. It discusses about the Disadvantages of FEA and how to minimise error and get better solutions.
This video is a lecture on Applications of FEA in Finite Element Analysis Course. It discusses about the Applications of FEA and how to minimise error and get better solutions.
This video is a lecture on Steps Involved in ANSYS Analysis in Finite Element Analysis Course. It discusses about the steps involved in solving a FEA problem in ANSYS namely, Pre-processing, Solution, Post-Processing, Validation & Verification and Optimization and how to minimise error and get better solutions.
This video is a lecture on Sources of Error in Finite Element Analysis Course. It discusses about the reasons for getting error in FEA solutions and how to minimise them and get better solutions.
This video is a lecture on Convergence in Finite Element Analysis Course. It discusses about the ways to converge the FEA solutions and how to minimise error and get better solutions.
This video is a lecture on Element Types in Finite Element Analysis Course. It discusses about the various types of elements used for defining mesh in FEA solutions and how to minimise error and get better solutions.
This video is a lecture on Consistent and Lumped Mass Matrix in Finite Element Analysis Course. It discusses about the comparison and use of Consistent and Lumped Mass Matrix in FEA solutions and how to minimise error and get better solutions.
This video is a lecture on h-method and p-method of mesh refinement in Finite Element Analysis Course. It discusses about the comparison and use of h-refinement and p-refinement methods in FEA solutions and how to minimise error and get better solutions.
This video is a lecture on shape function and its importance in Finite Element Analysis Course. It discusses about the term shape function and its importance in FEA solutions and how to minimise error and get better solutions.
This video is a lecture on isoparametric, subparametric and superparametric elements in Finite Element Analysis Course. It discusses about the comparison and use of isoparametric, subparametric and superparametric elements in FEA solutions and how to minimise error and get better solutions.
This video is a lecture on linear v/s non-linear analysis in Finite Element Analysis Course. It discusses about the comparison and use of linear and non-linear analysis in FEA solutions and how to minimise error and get better solutions.
This video is a lecture on Difference between CFD and FEA in Finite Element Analysis Course. It discusses about the various points of difference between the two and how to minimise error and get better solutions.
This video is a lecture on Axisymmetric Elements in FEA in Finite Element Analysis Course. It discusses about the various geometry, meshing, boundary condition and solution analysis of the axisymmetric elements and how to minimise error and get better solutions.
This video is on pressure vessel analysis using axisymmetric element using static structural module of ANSYS Workbench. This problem is of mechanics of solids subject.
This video is a lecture on Concept of Serendipity in FEA in Finite Element Analysis Course. It discusses about the various reasons that can cause serendipitious results in FEA how to minimise error and get better solutions.
This video is a lecture on Advantages of Serendipity Elements in FEA in Finite Element Analysis Course. It discusses about the applications of serendipity elements in FEA and how to improve accuracy and how to minimise error and get better solutions.
This video is a lecture on Equations of Elasticity in FEA in Finite Element Analysis Course. It discusses about Equations of Elasticity in FEA and some specific cases of plane stress, plane strain and axisymmetric element problem and how to improve accuracy and how to minimise error and get better solutions.
This video is a lecture on Significance of Material Properties in FEA in Finite Element Analysis Course. It discusses about Significance of Material Properties in FEA and some specific cases of material properties in various analysis types and how to improve accuracy and how to minimise error and get better solutions.
This video lecture is on Difference between CST & LST in FEA in Finite Element Course. It discusses about the physical and conceptual difference between the CST and LST elements and how to improve accuracy and how to minimise error and get better solutions.
This video lecture is on what Linear Strain Triangle(LST) is in FEA in Finite Element Course. It discusses about the physical and conceptual relevance of LST elements and how to improve accuracy and how to minimise error and get better solutions.
This video lecture is on what Constant Strain Triangle(CST) is in FEA in Finite Element Course. It discusses about the physical and conceptual relevance of CST elements and how to improve accuracy and how to minimise error and get better solutions.
This course is the third part of the lecture series of Finite Element Analysis subject. It takes you through various topics like Basics Concepts of FEA, Various Concepts in FEA and Some Important Terminologies in FEA. Various concepts and their applications are explained which helps understanding the software used in FEA in depth and more easily. These topics help while solving of questions in ANSYS by manual calculation method and also help in understanding of ANSYS solutions. Basic Mathematics is the requirement for understanding of this subject.
We start with Basics Concepts of FEA namely, Steps involved in FEA, Advantages of FEA, Disadvantages of FEA, Applications of FEA and Steps Involved in ANSYS Analysis.
Further, we move to the Various Concepts in FEA namely, Sources of Error in FEA, Convergence in FEA, Element Types in FEA, Consistent and Lumped Mass Matrix in FEA, H-Method and P-Method in FEA, Shape Function and its importance, Isoparametric, subparametric and superparametric elements in FEA, Linear vs Non-Linear FEA, Difference between CFD and FEA, Axisymmetric Elements, Axisymmetric Element ANSYS Analysis, Concept of Serendipity in FEA, Advantages of Serendipity Elements in FEA, Equations of Elasticity and Significance of Material Properties in FEA.
We also discuss the important terminologies used in FEA.