Now in a hardbound format, this extensive source of crack stress analysis information is nearly double the size of the previous edition. Along with revisions, the authors provide 150 new pages of analysis and information. This classic volume can serve as an excellent reference, as well as a text for in-house training courses in various industries and academic settings.
In a convenient hardcover format this extensive source of crack stress analysis has been brought up-to-date with the addition of 150 new pages of analysis and information. The book is an excellent reference, as well as a text for in-house training courses, in various industrial and academic settings. CONTENTS INCLUDE: Introductory Information: Crack-tip stress fields for linear-elastics bodies Alternate expressions for crack-tip elastic fields Energy rate analysis of crack extension Stress analysis results for common test specimen configurations: The center cracked test specimen The single edge notch test specimen Other common specimen configurations Two-dimensional stress solutions for various configurations with cracks: A finite crack in an infinite plane A periodic array of cracks in an infinite plane Opposing parallel semi-infinite cracks in an infinite plane A semi-infinite crack parallel to edges of an infinite strip Three-dimensional cracked configurations: An embedded circular crack in an infinite body A half-circular surface crack in a semi-infinite body Strip yield model solutions: Three-dimensional strip yielding solutions A circumferential crack in a cylindrical shell A crack in a spherical shell.
Written mainly for specialists in non-destructive examination and fracture mechanics, this book provides means to estimate the opening profiles of cracks in loaded structures. Equations, non-dimensional graph plots, computer software, background information and references are given which permit the calculation of the separation distances of crack faces as a function of crack size, applied loading etc. Sixteen different cases are covered by this Handbook.An Abington Publishing Special Report
This book is about the use of fracture mechanics for the solution of practical problems; academic rigor is not at issue and dealt with only in as far as it improves insight and understanding; it often concerns secondary errors in engineering. Knowledge of (ignorance of) such basic input as loads and stresses in practical cases may cause errors far overshadowing those introduced by shortcomings of fracture mechanics and necessary approximations; this is amply demonstrated in the text. I have presented more than three dozen 40-hour courses on fracture mechanics and damage tolerance analysis, so that I have probably more experience in teaching the subject than anyone else. I learned more than the students, and became cognizant of difficulties and of the real concerns in applications. In particular I found, how a subject should be explained to appeal to the practicing engineer to demonstrate that his practical problem can indeed be solved with engineering methods. This experience is reflected in the presenta tions in this book. Sufficient background is provided for an understanding of the issues, but pragamatism prevails. Mathematics cannot be avoided, but they are presented in a way that appeals to insight and intuition, in lieu of formal derivations which would show but the mathematical skill of the writer.
The professional's source . Handbooks in the Wiley Series in Mechanical Engineering Practice Handbook of Energy Systems Engineering Production and Utilization Edited by Leslie C. Wilbur Here is the essential information needed to select, compare, and evaluate energy components and systems. Handbook of Energy Systems is a rich sourcebook of reference data and formulas, performance criteria, codes and standards, and techniques used in the development and production of energy. It focuses on the major sources of energy technology: coal, hydroelectric and nuclear power, petroleum, gas, and solar energy Each section of the Handbook is a mini-primer furnishing modern methods of energy storage, conservation, and utilization, techniques for analyzing a wide range of components such as heat exchangers, pumps, fans and compressors, principles of thermodynamics, heat transfer and fluid dynamics, current energy resource data and much more. 1985 (0 471-86633-4) 1,300 pp.