The course plan (Lecture Plan) for the subject FEA (ME66603-Finite Element Analysis) is given for the Department of Mechanical Engineering ,Regulation 2013.
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S.No
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Topic
Name
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Book
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Page
no
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Mode
of delivery
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No
of hrs
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Cumulative
hrs
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UNIT I -
INTRODUCTION
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||||||
|
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Introduction
to Finite Element Analysis
|
Own notes
|
BB
|
1
|
1
|
|
|
|
Historical
Background, Mathematical modeling of field problems in engineering, Basic
concepts of the FEM
|
T1
|
BB
|
1
|
2
|
|
|
|
Governing
Equations, Discrete & continuous models
|
T1
|
BB
|
1
|
3
|
|
|
|
Boundary ,
Initial & EigenValue Problems
|
T1
|
BB
|
3
|
6
|
|
|
|
Weighted
Residual Methods
|
T1
|
BB
|
4
|
10
|
|
6
|
Variational
Formulation of Boundary value problems
|
T1
|
BB
|
1
|
11
|
|
7
|
Ritz
Technique
|
T1
|
BB
|
3
|
14
|
|
UNIT II-ONE
DIMENSIONAL PROBLEMS
|
||||||
8
|
One
Dimensional Second order Equations,Discretization
|
T1
|
BB
|
1
|
15
|
|
9
|
Element
types- Linear & Higher order
|
T1
|
BB
|
1
|
16
|
|
10
|
Derivation
of Shape functions & Stiffness matrices and force vectors
|
T1
|
BB
|
2
|
18
|
|
11
|
Assembly of
Matrices
|
T1
|
BB
|
2
|
20
|
|
12
|
Problems from
solid mechanics & heat transfer
|
T1
|
BB
|
3
|
23
|
|
13
|
Longitudinal
vibration frequencies & mode shapes
|
T1
|
BB
|
2
|
25
|
|
14
|
Fourth order
Beam Equation
|
T1
|
BB
|
2
|
27
|
|
15
|
Transverse
Deflections & Natural Frequencies of beams.
|
T1
|
BB
|
1
|
28
|
|
UNIT III-TWO
DIMENSIONAL SCALAR VARIABLE PROBLEMS
|
||||||
16
|
Second Order
2D Equations involving Scalar Variable Functions
|
T1
|
BB
|
2
|
30
|
|
17
|
Second Order
2D Equations involving Scalar Variable Functions
|
T1
|
BB
|
2
|
32
|
|
18
|
Shape functions and element matrices and vectors.
Application
to Field Problems - Thermal problems
|
T1
|
BB
|
4
|
36
|
|
19
|
Torsion of Non circular shafts –Quadrilateral
elements
|
T1
|
BB
|
4
|
40
|
|
20
|
Higher Order
Elements.
|
T1
|
BB
|
2
|
42
|
|
UNIT IV TWO DIMENSIONAL VECTOR VARIABLE PROBLEMS
|
||||||
21
|
Equations of elasticity
|
T1
|
BB
|
2
|
44
|
|
22
|
Plane stress, plane strain and axisymmetric problems
|
T1
|
BB
|
3
|
47
|
|
23
|
Body forces and
temperature
effects
|
T1
|
BB
|
2
|
49
|
|
24
|
Stress calculations
|
T1
|
BB
|
4
|
53
|
|
25
|
Plate and shell elements.
|
T1
|
BB
|
3
|
56
|
|
UNIT V ISOPARAMETRIC FORMULATION
|
||||||
26
|
Natural co-ordinate systems – Isoparametric elements
|
T1
|
BB
|
2
|
58
|
|
27
|
Shape functions for iso parametric elements
|
T1
|
BB
|
2
|
60
|
|
28
|
One and two dimensions – Serendipity elements
|
T1
|
BB
|
2
|
62
|
|
29
|
Numerical integration and application to plane
stress problems
|
T1
|
BB
|
2
|
64
|
|
30
|
Matrix solution techniques
|
T1
|
BB
|
2
|
66
|
|
31
|
Solutions Techniques to Dynamic problems
|
T1
|
BB
|
2
|
68
|
|
32
|
Introduction to Analysis Software.
|
T1
|
BB
|
2
|
70
|
|
Prepared by
|
Approved by
|
|
Signature
|
||
Name
|
||
Designation
|
Assistant Professor
/ Mechanical
|
HOD (Mech)
|
Signed date
|
Text Books:
T1 –
Dr.S.Senthil.,”Finite Element Analysis.
For more mechanical Engineering subjects Lecture Plan, Question Bank, Lecture Notes, PPT,PDF,University questions see the right side of this page or visit:annaunivstudymaterials.blogspot.com
For more mechanical Engineering subjects Lecture Plan, Question Bank, Lecture Notes, PPT,PDF,University questions see the right side of this page or visit:annaunivstudymaterials.blogspot.com
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