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Springer Handbook of Nanotechnology
This book is intended for three types of readers: graduate students of nanotechnology, researchers in academia and industry who are active or intend to become active in this field, and practicing engineers and scientists who have encountered a problem and hope to solve it as expeditiously as possible. The handbook should serve as an excellent text for one or two semester graduate courses in nanotechnology in mechanical engineering, materials science, applied physics, or applied chemistry. The handbook integrates knowledge from the fabrication, mechanics, materials science and reliability points of view. The purpose of this handbook is to present an overview of nanomaterial synthesis, micro/nanofabrication, micro- and nanocomponents and systems, reliability issues (including nanotribology and nanomechanics) for nanotechnology, and industrial applications.
http://rapidshare.de/files/22938608/Bhushan_-_Springer_Handbook_of_Nano-technology__Springer_2003__4AH.rar 51
Engineering - Structural ANSYS Tutorial
In this book, there are 6 exercises which discuss to you the analysis and purposes of each exercise. The 6 exercises are the following; the first exercise is Axle Structural Static Analysis, this exercise will use the very minimum of input required to progress through the steps and obtain results, second is the Bike Frame Analysis, this exercise will analyze a new, innovative mountain bike frame design under structural loads, third is the Automobile Suspension Bracket Analysis, this exercise will analyze an automobile suspension bracket, the fourth is the Rocket Engine Turbopump Flowguide Analysis, in this exercise, we will perform a thermal transient/static structural analysis of a rocket engine turbo pump flow guide, the fifth is the Fighter Jet Vectoring Nozzle, in this exercise, we will perform a structural analysis of a vectoring nozzle used on a high performance jet fighter engine, and the last exercise is the Thermal/Structural Analysis of a Roots Type Superchanger, and in this exercise, we will perform a thermal/structural analysis of a Roots type automobile supercharger.
http://rapidshare.de/files/22820934/Engineering_-_Structural_-_Ansys_Tutorials.part4.rar 44.
Coupled Structural Thermal Analysis
This tutorial was completed using ANSYS 7.0 The purpose of this tutorial is to outline a simple coupled thermal/structural analysis. A steel link, with no internal stresses, is pinned between two solid structures at a reference temperature of 0 C (273 K). As heat is transferred from the solid structure into the link, the link will attemp to expand. A steady-state solution of the resulting stress will be found to simplify the analysis. The link is steel with a modulus of elasticity of 200 GPa, a thermal conductivity of 60.5 W/m*K and a thermal expansion coefficient of 12e-6 /K.
http://rapidshare.de/files/22605219/Coupled_Structural-Thermal_Analysis_ANSYS__Uni_of_Alberta_.pdf 0
