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Mechanical engineering - Wikipedia
Thanks for telling us about the problem. Return to Book Page. Provides a rigorous derivation of surface properties such as temperature and deformation using continuum mechanics; Discussion is animated by the authors' decades of experience in experimental mechanics; Includes many techniologically motivated problems, solutions and computer solutions. Get A Copy.
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Hardcover , pages. Published July 31st by Springer first published January 1st More Details Original Title. Other Editions 4. Friend Reviews. To see what your friends thought of this book, please sign up.
To ask other readers questions about Fundamentals of Surface Mechanics , please sign up. Designed for students interested in an introductory course in aerospace engineering and the fundamentals and historical traditions of aerodynamics of flight. Introduces basics for the analysis and design of aircraft engines and reviews the history of gas turbine engines.
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Introduces general conservation laws of mass, energy, and momentum for compressible flows and application to quasi-one-dimensional internal flows and shock waves in external flows. Reviews thrust and thermodynamic performance of the engines. Discusses designing parameters of the inlets in detail. Uses the principles of chemical equilibrium to calculate the composition of combustion products in a chemical reaction to find flame temperature and energy release, which drive the design of combustors and afterburners.
Introduces physics and aerodynamics of compressors and turbines, and reviews basics of gas turbine blades cooling.
Civil Engineering Courses
Studies fundamental principles in fluid mechanics. Includes a team-based independent project. International Applications of Fluid Mechanics. Studies fundamental principles in fluid mechanics in an international setting. Students have an opportunity to travel to a foreign locale to develop theoretical understanding while experiencing the issues that affect applications of fluids engineering in a culture and environment different from their own. Includes a team-based independent project that focuses on applications that allow students to delve into issues that affect engineering and technology development in their host country.
Measurement and Analysis with Thermal Science Application. Introduces basic measurements and data analysis techniques.
Fundamentals of Surface Mechanics: With Applications (Mechanical Engineering Series)
Offers students an opportunity to become familiar with various types of measurement systems and to set up and perform experiments according to a given procedure. Covers basic measurement methods of rotational frequency; temperature, pressure, and power; and analog-to-digital conversion techniques and data acquisition. Data analysis topics include statistical analysis of data, probability and inherent uncertainty, basic measurement techniques, primary and secondary standards, system response characteristics, and computerized data acquisition methods.
Includes experiments in thermodynamics, fluid mechanics, and heat transfer. Topics include cycle performance, flow discharge coefficient and heat transfer coefficient measurements, and psychometric applications in the air-conditioning field. Mechanical Engineering Computation and Design. Highlights the role of finite element analysis in product development. Emphasis is on solid modeling in design using available commercial finite element software. Also covers other numerical techniques such as finite difference schemes in the solution of systems of partial differential equations, and numerical solution to systems of linear and nonlinear equations.
Covers concepts in mechanical vibration analysis. Topics include basic concepts of vibrations, vibration problems vs. Explores development of the mechanical design process and its open-ended nature. Reviews fundamentals of stress and theories of failure including fatigue considerations in the analysis of various machine components. Treatment is given to shafts, springs, screws, connections, lubrications, bearings, gears, and tolerances.
Includes team-based design projects that involve modeling and the design process. Presents the theoretical backgrounds for the analysis and design of simple feedback control systems, differential equations, and Laplace transforms.
Treats system modeling, linear approximations, transfer functions, and block diagrams; and transient and frequency response and stability-frequency domain and root locus methods. Other topics may include linear systems with time lag and relay servomechanisms with small nonlinearities. Introduction to Computational Fluid Dynamics. Introduces numerical methods applied to solve fluid flow problems. Includes basic mathematics and physics related to computational fluid dynamics CFD , together with practical assignments that use commercial CFD packages. Emphasizes finite difference and finite volume methods.
Other topics include mathematical properties of partial differential equations, accuracy and stability analysis of numerical solution, CFD verification and validation, application to variety of fluid dynamics problems, grid generation, and turbulence modeling. Thermal Systems Analysis and Design. Introduces theories of thermal energy transport, including conduction, convection, and thermal radiation, and the design of thermal systems. Solution methods are developed for steady-state and transient conduction problems including thermal circuit analogies, internal energy sources and extended surfaces.kinun-mobile.com/wp-content/2020-05-08/mok-cell-number.php
Mechanical Engineering (ME)
Convective heat transfer mechanisms are introduced and correlations to evaluate the heat transfer coefficient are discussed. Methodologies for calculating the thermal radiation heat transfer between surfaces are introduced. These theories are integrated with thermodynamics and fluid mechanics in the design of thermal systems, including heat exchangers.
Includes an open-ended design project and students are expected to use computational methods throughout the course. Examines the structure-property relationship of ceramics, focusing mostly on modern engineered ceramics and glasses. Ceramics are broadly defined as materials that are inorganic and nonmetallic and so encompass an extremely broad range of materials and material properties. Discusses their structures from the atomic through the microstructural level and properties from across the thermal, mechanical, optical, electrical, and chemical spectrum. Considers the ideal crystalline and glassy structures, as well as the crucial role of point, linear, and planar defects.
Relates phase equilibria and transformations to a survey of modern techniques for ceramic and glass fabrication. Mechanical Behavior and Processing of Materials. Continues studies of the physical basis for the mechanical behavior of solid materials including elasticity, plasticity, viscoelasticity, fracture, fatigue, and creep properties. Also covers materials processing and includes casting, forming, joining, and machining. Presents the concepts and theories of operation of internal combustion engines based upon the fundamental engineering sciences of thermodynamics, gas dynamics, heat transfer, and mechanics.
Discusses the design and operating characteristics of conventional spark-ignition, compression-ignition, Wankel, and stratified charge. Explores the relationship between vehicle load and engine load through differential and transmission gear-ratio selections. Includes laboratory experiments. Special Topics in Mechanical Engineering. Focuses on an advanced mechanical engineering project agreed upon between the student and instructor.
Offers an opportunity to conduct research under faculty supervision. Offers theoretical or experimental work under the direction of members of the department on a chosen topic. Course content depends on instructor. Computer Aided Design and Manufacturing. Topics include mixed-systems integration; sensors, actuation systems; brief overview of dynamic systems modeling, response characterization, and closed-loop controllers; interfacing; data presentation systems and processes; microprocessors; real-time monitoring and control; and applications of mechatronic systems.
Covers kinematics and dynamics of robot manipulators, including the development of kinematics equations of manipulators, the inverse kinematics problem, and motion trajectories. Employs Lagrangian mechanics to cover dynamics of manipulators for the purpose of control. Covers control and programming of robots, steady state errors, calculations of servoparameters, robot vision systems and algorithms, as well as imaging techniques and the concept of mobile robots.
Materials Processing and Process Selection. Covers the fundamentals and usage of processes and techniques for bulk, thick film, thin film, and patterned structures. Covers techniques for improvement of mechanical or functional properties, for reliability, or for operation in harsh environments. Includes case studies for which processes are selected based on efficacy, material input, and cost. Systems studied include biocompatible implants and materials for the telecommunication, semiconductor, energy, and aerospace industries.
Fundamentals of Advanced Materials. Offers a deep dive into the interdisciplinary field of materials science that addresses the discovery, design, and prediction of new materials, with an emphasis on solids. Offers students an opportunity to gain knowledge and practice in issues of materials science. Consists of fundamentals, properties emphasis on electronic properties , applications, and advanced topics.
Provides specific readings from the literature assigned to support the in-class lectures. Offers a variety of opportunities to practice and demonstrate comprehension and learning. Environmental Issues in Manufacturing and Product Use. Explores environmental and economic aspects of different materials used in products throughout the product life cycle.
Introduces concepts of industrial ecology, life cycle analysis, and sustainable development.