Course : Mechanics of Materials

  • 30 August 2017, 11.11
  • Oleh:
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Course code/credits and contact hours : TKS2202/2.0
Semester : IV
Instructor’s or course coordinator’s name : Ir. Suprapto Siswosukarto, Ph.D.

 
Bibliography :
  1. Gere, J.M. and Timoshenko, S.P., 2004, Mechanics of Materials, Sixth Edition, Wordsworth Inc.
  2. Timothy A. Philpot, 2013, Mechanics of Materials, Wiley
  3. Popov, P.E., 1978, Mechanics of Materials, Prentice Hall Inc.
  4. Hiyndon Ohlsen, Mechanics of Materials, John Wiley and Sons
Specific course information
Brief description  :

This course contains the axially loaded structures, flexure, axial-flexure combination, shear and torsion, deformation and displacement (beam deflection: deflection curve differential equation, beam deflection analysis using double integral method and moment area method), stability of compression member, body stress strain analysis by analytic and graphic method.
Prerequisite Courses :
  1. Differential Equation (Semester III)
  2. Statics I (Semester III)
Required/elective : Required
Studio work : N/A
Laboratory work : N/A
Specific goals of the course
Specific outcomes :

The students are expected to be able to analyze stress due to internal and external forces, also to design simple structures using concrete, steel, wood, composite, and other materials.
Student outcomes :

(a) An ability to apply knowledge of mathematics, science, and engineering in civil engineering fields
Brief list of topics to be covered :
  1. Tensile, tension and shear
  2. Center of gravity and moment of inertia
  3. Tension, curvature, longitudinal strain, normal stress in beam
  4. Normal stress on non-prismatic beams
  5. Shear stress in beams
  6. Composite beam
  7. Double symmetrical beam with a tilt load
  8. Concept of a shear center
  9. Shear stress in thin walled beams with open cross section
  10. Beam deflection
  11. Analysis of stress and strain
  12. Column
  13. Torque