Logo

Applied Strength of Materials for Engineering Technology

Small book cover: Applied Strength of Materials for Engineering Technology

Applied Strength of Materials for Engineering Technology
by

Publisher: Purdue University
Number of pages: 161

Description:
Contents: Introduction to Strength of Materials; Stress and Strain; Poisson's Ratio and Thermal Expansion; Pressure Vessels and Stress Concentrations; Bolted and Welded Joints; Torsion in Round Shafts; Beam Reactions, Shear Diagrams, and Moment Diagrams; Stresses in Beams; Beam Deflection; Beam Design; Combined Stresses; Statically Indeterminate Beams; Buckling of Columns.

Home page url

Download or read it online for free here:
Download link
(1.7MB, PDF)

Similar books

Book cover: Mechanical MetallurgyMechanical Metallurgy
by - McGraw-Hill
In writing 'Mechanical Metallurgy' an attempt has been made to cover, in some measure, the great diversity of interests. The objective has been to include the entire scope of mechanical metallurgy in one fairly comprehensive volume.
(4383 views)
Book cover: Mechanics of MaterialsMechanics of Materials
by - Michigan Technological University
With strong practical examples and real-life engineering problems, the book promises to provide the skills and principles that students need to organize, integrate, and make sense of the flood of information in the world of modern engineering.
(11322 views)
Book cover: Applied Fracture MechanicsApplied Fracture Mechanics
by - InTech
The book presents application of fracture mechanics methods to materials science, medicine, and engineering. Topics include safety of nuclear reactor components, fatigue effects in pipelines, environmental effects on fracture, and more.
(4377 views)
Book cover: Solid Mechanics Lecture NotesSolid Mechanics Lecture Notes
by - The University of Auckland
Lecture notes on solid mechanics for engineering students. Part I:An Introduction to Solid Mechanics Part II:Engineering Solid Mechanics Part III:Foundations of Continuum Solid Mechanics Part IV: Material Models in Continuum Solid Mechanics.
(10412 views)