Process Piping: The Complete Guide to Asme B31.3

This essential new volume provides background information, historical perspective, and expert commentary on the ASME B31.3 Code requirements for process piping design and construction. It provides the most complete coverage of the Code that is available today and is packed with additional information useful to those responsible for the design and mechanical integrity of process piping. The author is a long-serving member of the ASME B31.3, Process Piping Code committee. Dr. Becht explains the principal intentions of the Code, covering the content of each of the Code's chapters. Book inserts cover special topics such as calculation of refractory lined pipe wall temperature, spring design, design for vibration, welding processes, bonding processes and expansion joint pressure thrust..Appendices in th book include useful information for pressure design and flexibility analysis as well as guidelines for computer flexibility analysis and design of piping systems with expansion joints. From the new designer wanting to know how to size a pipe wall thickness or design a spring to the expert piping engineer wanting to understand some nuance or intent of the Code, everyone whose career involves process piping will find this to be a valuable reference.

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Materials Science Research Horizons

Materials science includes those parts of chemistry and physics that deal with the properties of materials. It encompasses four classes of materials, the study of each of which may be considered a separate field: metals; ceramics; polymers and composites. Materials science is often referred to as materials science and engineering because it has many applications. Industrial applications of materials science include processing techniques (casting, rolling, welding, ion implantation, crystal growth, thin-film deposition, sintering, glassblowing, etc.), analytical techniques (electron microscopy, x-ray diffraction, calorimetry, nuclear microscopy (HEFIB) etc.), materials design, and cost/benefit tradeoffs in industrial production of materials. This book presents new research directions in this rapid-growing field.

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Residual Stress Effects on Fatigue and Fracture Testing and Incorporation of Results Into Design

Eleven peer-reviewed papers, written by experts in their field, provide an understanding of residual stresses, fatigue crack growth, fatigue lifetime predictions, and their effect on structural integrity. Residual stresses can be present due to processing and manufacturing of materials and structures, so it is imperative to understand how and why they can influence the test data that we used in structural design methodologies. Residual stresses may also be intentionally engineered into structures in attempts to improve fatigue life, and it is equally important that designers understand how to account for these potential effects on fatigue life.

Table of Contents
Predicting Fatigue Crack Growth in the Residual Stress Field of a Cold Worked Hole-By: M. T. Kokaly and L. F. Reid
Modeling the Formation and Growth of Cracks from Cold-Worked Holes-By: W. Fujimoto
Effect of Shot Peening on Fatigue Crack Growth in 7075-T7351-By: A. S. Kobayashi and M. Ramulu
Thermal Residual Stress Relaxation in Powder Metal IN-100 Superalloy-By: D. J. Buchanan and N. E. Ashbaugh
Stress Intensity Factor Analysis and Fatigue Behavior of a Crack in the Residual Stress Field of Welding-By: H. Terada
A Design Methodology to Take Credit for Residual Stresses in Fatigue Limited Designs-By: P. S. Prevey and N. Jayaraman
Correlation Between Strength and Measured Residual Stress in Tempered Glass Products-By: A. S. Redner, M. Schiavonato, and E. Mognato
Influence of Cold Rolling Threads Before or After Heat Treatment on High Strength Bolts for Different Fatigue Preload Conditions-By:R. I. Stephens and C. K. Horn
An Integrated Approach to the Determination and Consequences of Residual Stress on the Fatigue Performance of Welded Aircraft Structures-By: L. Edwards and D. Yapp
Residual Stress Measurements in Welded and Plastically Deformed Target Structural Materials-By: A. K. Roy and R. Rogge
Novel Applications of the Deep-Hole Drilling Technique for Measuring Through-Thickness Residual Stress Distributions-By: D. J. Smith and A. H. Mahmoudi

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