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e. Reddy, J. N., 2005, An Introduction to Finite BMCG 4413 NON DESTRUCTIVE TESTING
rd
Element Method, 3 Edition, McGraw-Hill, Inc., LEARNING OUTCOMES
New York. At the end of the course, the student should be able
to:
LO1 Explain the current basic and some advanced
BMCG 4123 ADVANCED SOLID MECHANICS principles of Non-Destructive Testing (NDT)
LEARNING OUTCOMES techniques to satisfy complex engineering
At the end of this course the student should be able problems.
to: LO2 Select and propose suitable NDT techniques
LO1 Analyse and determine shear centre and based on their analysis on engineering
stresses of structures due to unsymmetrical problems that fulfil the standard practice.
bending and torsional load. LO3 Develop the ability to communicate
LO2 Analyse and determine principal stresses by effectively using available resources to
using imaging technique. disseminate knowledge of NDT techniques in
LO3 Analyse and evaluate the contact stresses relation with industrial problem.
due to contact between curved surfaces. SYNOPSIS
SYNOPSIS This course introduce the basic principles of Non-
Unsymmetrical bending theory, stresses in curved Destructive Testing (NDT) and the methods of Non-
beams, shear centre and stress, torsion for open and Destructive Testing that are widely use in the
closed cells thin-walled, photoelasticity, stresses in industry, which are Visual Inspection, Penetrant Test,
circular and square plate, and contact stresses. Magnetic Particle Testing, Eddy Current Testing,
Ultrasonic Testing and Radiographic Testing. This
REFERENCES course also covers the execution, evaluation and
a. Beer, F.P., and Johnston, E.R, 2013, Mechanics interpretation of each NDT techniques. The
of Materials, 4 Ed., McGraw-Hill. advantages, limitations and main application of
th
b. Budynas, R.G., 1999, Advanced Strength and each NDT techniques are also provided. Introduction
Applied Stress Analysis, McGraw-hill. to Advanced NDT methods are also included.
c. Hearn, E. J., 1997, Mechanics of Materials Vol. REFERENCES
I &II., Butterworth-Heinemann. a. Mix, P.E., 1987, Introduction to Nondestructive
d. Benham, P.P., Crawford, R.J., and Armstrong, Testing: A Training Guide, 2nd Edition, John
C.G, 1996, Mechanics of Engineering Wiley, New York. (Textbook)
Materials, Longman Group, Ltd., UK. b. Raj, B., Jayakumar, T., and Thavasimuthu, M.,
e. Vable, M., 2004, Mechanics of Materials. 1996, Practical Non-Destructive Testing, 2nd
Oxford University Press. Edition, Woodhead Publishing Limited,
f. Solecki, R., and Conant, R.J., 2003, Advanced Cambridge.
Mechanics of Materials. Oxford University c. Boving, K.G., 2000, NDE Handbook: Non-
Press. Destructive Examination Methods for
Conditioning Monitoring, 2nd Edition,
Woodhead Publishing Limited, Cambridge
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