Page 90 - Academic Handbook FKM 2017-2018
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SYNOPSIS flow with combination of loads, including the
This course covers the basic concepts and definitions deflection of beams.
of engineering thermodynamics, energy, work and REFERENCES
heat, properties of pure substances (relationships of a. Beer, F.P., et al., 2006, Mechanics of Materials
P-V, T-V, P-T and T-s diagrams), First Law of 4th Edition in SI Units, McGraw-Hill.
Thermodynamics, Second Law of Thermodynamics b. Hibbeler, R.C., 2004, Mechanics of Materials SI
and Entropy. Edition, Prentice Hall.
REFERENCES c. Gere, J.M., 2004, Mechanics of Materials,
a. Cengel, Y.A. and Boles, M.A., 2011, Thomson.
Thermodynamics: An Engineering Approach, d. Vable, M., 2002, Mechanics of Materials,
7th ed, McGraw Hill. Singapore. Oxford University Press.
b. Gupta, S.C., 2008, Thermodynamics, 1st ed,
Pearson Education (Singapore) Pte. Ltd
c. Sonntag, R.E., Borgnakke, C., Van, W., and DMCB 2423 MATERIALS SCIENCE
Gordon, J., 2008, Fundamentals of LEARNING OUTCOMES
Thermodynamics, 7th ed, John Wiley & Sons, At the end of this course, students should be able to:
Inc. New York. -
LO1 Describe the classifications, structures and
applications of metals, ceramics and
DMCS 2323 SOLID MECHANICS I polymers correctly.
LEARNING OUTCOMES LO2 Analyze deformations behavior and
At the end of this course, students should be able to: strengthening mechanisms relying to its
LO1 Use concept of stress-strain relationship and structure and properties of materials clearly.
factor of safety appropriately in LO3 Apply Fick’s Law in calculating the diffusion
engineering design. process and its mechanism in solids properly.
LO2 Sketch normal force, shear force and LO4 Demonstrate appropriate test methods in
bending moment diagrams in determining determining mechanical properties.
stresses and displacement appropriately. LO5 Apply the relation between composition,
LO3 Determine stresses within structure courseed microstructure and properties of metallic
to torsion correctly. materials by using apposite phase diagram
LO4 Analyse the slope and displacement of a and heat treatment process.
continuous beam due to static loading using SYNOPSIS
singularity function correctly. Introduction to fundamentals of Materials Science
SYNOPSIS and its applications, atomic structure, crystal
This course introduces to the various types of structure, solidification, imperfections and solid
structures and type of supports. Understand the diffusion, mechanical and physical properties, phase
concepts of stress, strain, shear force and bending diagrams and transformation, types and
moment. It also covers the theory of torsion, shear applications of materials.
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