Author: R. Hill
Publisher: Oxford University Press, USA
Category: Book

List Price: ~~$55.00~~
Buy New: $49.50
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Avg. Customer Rating: 5.0 out of 5 stars

2 reviews
Sales Rank: 97755

Media: Paperback
Number Of Items: 1
Pages: 366
Shipping Weight (lbs): 1.2
Dimensions (in): 9.1 x 6 x 1

ISBN: 0198503679
Dewey Decimal Number: 531.385
EAN: 9780198503675
ASIN: 0198503679

Publication Date: November 12, 1998
Availability: Usually ships in 7 to 11 days

Also Available In:

•	Paperback - The Mathematical Theory of Plasticity (Oxford Engineering Science Series)
•	Hardcover - Mathematical Theory of Plasticity (Engineering Science)
•	Unknown Binding - The mathematical theory of plasticity (The Oxford engineering science series)
•	Unknown Binding - The mathematical theory of plasticity (The Oxford engineering science series)
•	Unknown Binding - The mathematical theory of plasticity (The Oxford engineering science series)
•	Unknown Binding - The mathematical theory of plasticity (The Oxford engineering science series)
•	Unknown Binding - The mathematical theory of plasticity (The Oxford engineering science series)
•	Unknown Binding - The mathematical theory of plasticity (The Oxford engineering science series)
•	Unknown Binding - The mathematical theory of plasticity (Oxford engineering science series)

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Editorial Reviews:

Product Description
Written by one of the leaders in the field and first published in 1950, this book remains a classic treatment of the mathematical theory of plastic materials.

Customer Reviews:

5 out of 5 stars

The Mathematical Theory of Plasticity February 6, 2003
0 out of 10 found this review helpful

fundamental equations
Extrusion from a contracting under certain distributed loads
Cylindrical tude under certain distibuted loads

5 out of 5 stars

A monumental piece of work in the history of engineering September 29, 1999
9 out of 16 found this review helpful

Today Rodney Hill remains the best known plastician of this century. Perhaps no other book in engineering mechanics has done so much to propel a field as has Hill's Mathematical Theory of Plasticity. The book forms a beginning, a guiding force, for nearly all plasticity books in print today including my own.