Facebook
Twitter
Home
Resources
Downloads
Forum
Search
TBC Code Search
Testimonials
News & Events
Scilab Toolbox Hackathon 2020
Workshop Statistics
Conference
FOT Workshop
About Us
Team
Contact Us
Login
You are here
Home
»
Scilab Textbook Companion Project
» Download Codes
Download Codes
Category
Please select
Aeronautical/Aerospace Engineering/Civil Engineering/Industrial Engineering/Mechanical Engineering/Nuclear Engineering/Ocean Engineering/Production Engineering
Computer Science/Information Technology
Chemical Engineering
Chemistry
Electrical Engineering/Electrical & Electronics Engineering/Electronics & Telecommunication Engineering/Instrumentation & Control Engineering
Material Sciences/Metallurgy
Mathematics & Statistics
Physics
Economics
Sub Category
Please select
Mechanics
Material Science
Properties of Material
Title of the book
Please select ...
Statics And Strength Of Materials (Written by I. J. Levinson)
Principles of Electrical Engineering Materials (Written by S. O. Kasap)
Advanced Strength and Applied Elasticity (Written by A. C. Ugural and S. K. Fenster)
Mechanical Metallurgy (Written by G. E. Dieter)
Strength Of Materials (Written by B. K. Sarkar)
Strength Of Materials (Written by R. K. Bansal)
About the Book
About the Contributor
Author:
R. K. Bansal
Title of the Book:
Strength Of Materials
Publisher:
Laxmi Publications(p)ltd,new Delhi
Year:
2017
Edition:
6
ISBN:
978-8131808146
Contributor Name:
Ebby George, M.Tech, Mathematics, NITK
Reviewer:
Scilab TBC Team
No part of any book is reproduced through these links. These links only contain the Scilab code for the solved examples in the book.
Download
(Download the Scilab codes for all the solved examples)
Download PDF
(Download the PDF file containing Scilab codes for all the solved examples)
The pdf only contains the Scilab code for the solved examples in the book. No part of the book is reproduced in the pdf.
Title of the chapter
Please select...
1. simple stresses and strains
2. elastic constants
3. principal stresses and strains
4. strain energy and impact loading
7. bending stresses in beams
8. shear stresses in beams
10. dams and retaining walls
12. deflection of beams
13. deflection of cantilevers
16. torsion of shafts and springs
24. theories of failure
Example No. (Caption):
Please select...
