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Mechanical Tolerance Stackup and Analysis
Written by one of the foremost authorities in the field, Mechanical Tolerance Stackup and Analysis presents proven and easy-to-use methods for determining whether selected dimensioning and tolerancing schemes will yield functional parts and assemblies and the most practical procedure to communicate the results. Using a variety of examples and real-
Practical Inverse Analysis in Engineering (1997)
Continuing advances in computer technology have made it possible for engineers and scientists to construct increasingly realistic models of physical processes. Practical Inverse Analysis in Engineering addresses an important area of engineering that will become even more significant to engineers and scientists - combining measurements with engineering models. This self-contained text presents applied mathematical tools for bridging the gap between real-world measurements and mathematical models. The book demonstrates how to treat "ill-conditioned" inverse analysis problems - those problems where the solution is extremely sensitive to the data - with the powerful theory of dynamic programming. A second theory, generalized-cross-validation, is also discussed as a useful partner in handling real data. The material in the book, much of it published for the first time, presents theories in a general unified setting, so readers can apply the information to their models. A disk containing DYNAVAL programming software lets readers try the methods presented in the text.
Probability Applications in Mechanical Design
The authors of this text seek to clarify mechanical fatigue and design problems by applying probability and computer analysis, and further extending the uses of probability to determine mechanical reliability and achieve optimization. The work solves examples using commercially available software. It is formatted with examples and problems for use
Impurities in Engineering Materials
Provides a state-of-the-art account of the various effects of impurities on the properties of engineering alloys. Outlines a wide range of methods for producing cleaner alloys. Traces the technological advances that allow the economical manufacture of purer materials.
Optimizing the Shape of Mechanical Elements and Structures
This work introduces a wide variety of practical approaches to the synthesis and optimization of shapes for mechanical elements and structures. The simplest methods for achieving the best results without mathematical complexity - especially computer solutions - are emphasized. The authors present detailed case studies of structures subjected to different types of static and dynamic loading, including load-bearing structures with arbitrary support conditions, rotating disks, layered structures, pressure vessels, elastic bodies and structural elements subjected to impulsive loading.
Stiffness and Damping in Mechanical Design
Offers designers and users of mechanical systems an overview of structural stiffness and damping and their critical roles in mechanical design. The text assesses the relationship between stiffness and damping parameters in mechanical systems and structural materials. An accompanying disk contains detailed analyses of stiffness- and damping-critical systems.
Solving Mechanical Design Problems with Computer Graphics
This book acquaints the reader with interactive computer graphics and how they are being used in the analysis of mechanical design problems. It covers four mechanical design topics: the graphics model, mass properties, stress and strain, and kinematic and kinetic analysis.
Creative Design of Mechanical Devices
A survey of engineering creative techniques and a novel creative design methodology for the systematic generation of all possible design configurations of mechanical devices. It provides a solid background to assist instructors teaching creative design in mechanical engineering. It equally helps students to hone their creative talents in an effective manner, and it supplies a powerful tool for design engineers to come up with fresh concepts to meet new design requirements and constraints, and/or to avoid patent protection of existing products. The text is organised in such a way that it can be used for teaching or for self-study. It is designed for undergraduate courses in engineering design and/or senior design projects, but may also be adopted for graduate courses in advanced machine design, advanced kinematics, and/or special topics for teaching creative design in mechanical engineering.
Mechanical Engineering Sample Examination
Engineers agree that taking mock exams provides excellent practice for the real thing. The Mechanical Engineering Sample Examination contains an eight-hour practice exam similar in difficulty to the mechanical PE exam. All problems are accompanied by fully explained solutions.
