Search Results - (( mechanical engineering aat processing. ) OR ( mechanical engineering 6 processing. ))*

Engineering Science. by Bolton, William

Table of Contents: “…6.3 Free-body diagrams -- 6.4 Weight and weightlessness -- Problems -- Chapter 7 Energy -- 7.1 Introduction -- 7.2 Energy transformations -- 7.3 Work -- 7.4 Potential energy -- 7.5 Kinetic energy -- 7.6 Conservation of mechanical energy -- 7.7 Power -- 7.8 Torque and work done -- Activities -- Problems -- Chapter 8 Heat -- 8.1 Introduction -- 8.2 Heat capacity -- 8.3 Expansion -- 8.4 Gas laws -- 8.5 Heat transfer processes -- 8.6 Conduction -- Activities -- Problems -- Chapter 9 DC circuits -- 9.1 Introduction -- 9.2 Kirchhoff's laws -- 9.3 Resistance -- 9.4 Resistors in series…”
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Applied Mechanical Design : Solved Case Studies and Projects. by Grous, Ammar

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Fundamentals of Renewable Energy Processes. by Da Rosa, Aldo V.

Table of Contents: “…2.5.1 How to Plot Statistics2.5.2 Maxwellian Distribution; 2.5.3 Fermi-Dirac Distribution; 2.6 Boltzmann's Law; 2.7 Phases of a Pure Substance; 2.8 Symbology; References; Mechanical Heat Engines; 3.1 Heats of Combustion; 3.2 Carnot Efficiency; 3.3 Engine Types; 3.4 The Otto Engine; 3.4.1 The Efficiency of an Otto Engine; 3.4.2 Using the T-s Diagram; 3.4.3 Improving the Efficiency of the Otto Engine; 3.5 Gasoline; 3.5.1 Heat of Combustion; 3.5.2 Antiknock Characteristics; 3.6 Knocking; 3.7 Rankine Cycle; 3.7.1 The Boiling of Water; 3.7.2 The Steam Engine; 3.7.3 And now?…”
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Fundamentals of Renewable Energy Processes. by Rosa, Aldo V. da

Table of Contents: “…Fundamentals of Renewable Energy Processes; Table of Contents; Foreword; Acknowledgments; Chapter 1: Generalities; Part I: Heat Engines; Chapter 2: A Minimum of Thermodynamics and of Kinetic Theory of Gases; Chapter 3: Mechanical Heat Engines; Chapter 4: Ocean Thermal Energy Converters; Chapter 5: Thermoelectricity; Chapter 6: Thermionics; Chapter 7: AMTEC; Chapter 8: Radio-Noise Generators; Part II: The World of Hydrogen; Chapter 9: Fuel Cells; Chapter 10: Hydrogen Production; Chapter 11: Hydrogen Storage; Part III: Energy from the Sun; Chapter 12: Solar Radiation; Chapter 13: Biomass.…”
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Reliability-Centered Maintenance: Management and Engineering Methods by Anderson, Ronald T.

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Mechanical system design by Siddiqui, K. U.

Table of Contents: “…2.3 Identification of Engineering Functions of Systems 2.4 The Characteristics of a System in MSD -- 2.5 Engineering Activities Matrix -- 2.6 Defining the Proposed Effort -- 2.7 Role of Engineer in Mechanical System Design -- 2.8 Engineering Problem Solving -- 2.9 Concurrent Engineering (CE) -- 2.10 A. …”
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The Fundamentals of Quality Management by Kehoe, Dennis F.

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Computational structural mechanics and fluid dynamics : advances and trends : papers

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Handbook of Vacuum Science and Technology. by Hoffman, Dorothy

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Mechanical Tolerance Stackup and Analysis. by Fischer, Bryan R.

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Fracture mechanics. 1, Analysis of reliability and quality control by Grous, Ammar

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Principles of human joint replacement : design and clinical application by Buechel, Fred, Pappas, Michael J.

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Solar engineering of thermal processes by Duffie, John A.

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Photo- and electro-catalytic processes : water splitting, N2 fixing, CO2 reduction

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Food process engineering and technology by Berk, Zeki

Table of Contents: “…Front Cover; Food Process Engineering and Technology; Copyright Page; Dedication; Contents; Introduction; "Food is life"; The food process; Batch and continuous processes; Process flow diagrams; References; 1 Physical Properties of Food Materials; 1.1 Introduction; 1.2 Mass, volume, density; 1.3 Mechanical properties; 1.3.1 Definitions; 1.3.2 Rheological models; 1.4 Thermal properties; 1.5 Electrical properties; 1.6 Structure; 1.7 Water activity; 1.7.1 The importance of water in foods; 1.7.2 Water activity, definition, and determination; 1.7.3 Water activity: Prediction.…”
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Nonlinear Stability and Bifurcation Theory : an Introduction for Engineers and Applied Scientists by Troger, Hans

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Electrospinning process and nanofiber research

Table of Contents: “…Neural Tissue Engineering ; 4. STEM CELLS AND NANOFIBERS; CONCLUSIONS ; ACKNOWLEDGMENTS ; REFERENCES ; MULTILAYERS ELECTROSPUN NANOFIBER WEB: A NEW CLASS OF NONWOVENS ; ABSTRACT ; INTRODUCTION ; EXPERIMENTAL ; Electrospining and Laminating Process ; Nanofiber Web Morphology; Measurement of Air Permeability ; RESULTS AND DISCUSSION ; Mechanical Properties of Multilayer Nano-Web ; Simulation of Nano-Web ; Fiber Diameter Measurement ; Manual Method ; Distance Transform ; Direct Tracking ; CONCLUSION; REFERENCES.…”
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Surface engineering for corrosion and wear resistance

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Unsaturated soil mechanics in engineering practice by Fredlund, D. G. (Delwyn G.), 1940-

Table of Contents: “…Unsaturated Soil Mechanics in Engineering Practice -- Contents -- Foreword -- Preface -- Acknowledgments -- Chapter 1 Theory to Practice of Unsaturated Soil Mechanics -- 1.1 Introduction -- 1.1.1 Application of Unsaturated Soil Mechanics in Engineering Practice -- 1.1.2 Scope of the Book -- 1.1.3 Gradual Emergence of Unsaturated Soil Mechanics -- 1.1.4 Challenges to Implementation -- 1.1.5 Laboratory and Field Visualization of Degree of Saturation -- 1.2 Moisture and Thermal Flux Boundary Conditions -- 1.2.1 Quantification of Moisture and Thermal Boundary Fluxes -- 1.3 Determination of Unsaturated Soil Properties -- 1.3.1 Estimation Procedures for Unsaturated Soil Properties -- 1.3.2 Design Protocols for Unsaturated Soil Properties -- 1.4 Stages in Moving Toward Implementation -- 1.4.1 State Variable Stage -- 1.4.2 Constitutive Stage -- 1.4.3 Formulation Stage -- 1.4.4 Solution Stage -- 1.4.5 Design Stage -- 1.4.6 Verification and Monitoring Stage -- 1.4.7 Implementation Stage -- 1.5 Need for Unsaturated Soil Mechanics -- 1.5.1 Application Areas for Unsaturated Soil Mechanics -- 1.5.2 Construction and Operation of a Dam -- 1.5.3 Natural Slopes Subjected to Environmental Changes -- 1.5.4 Mounding Below Waste Retention Ponds -- 1.5.5 Stability of Vertical or Near-Vertical Excavations -- 1.5.6 Bearing Capacity for Shallow Foundations -- 1.5.7 Ground Movements Involving Expansive Soils -- 1.5.8 Design of Soil Cover Systems and Capillary Breaks -- 1.5.9 Road and Railroad Structures -- 1.5.10 Characteristics of Unsaturated Soil Examples -- 1.6 Partial Differential Equations in Soil Mechanics -- 1.6.1 Components of Boundary Value Problem -- 1.6.2 Partial Differential Equation Solving -- 1.6.3 Convergence of Nonlinear Partial Differential Equations -- 1.6.4 Uncoupled Processes in Unsaturated Soil Mechanics.…”
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Materials selection in mechanical design by Ashby, M. F.

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