Tag Archives: microelectronics

“Advanced Elastomers: Technology, Properties and Applications” ed. by Anna Boczkowska

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"Advanced Elastomers: Technology, Properties and Applications" ed. by Anna Boczkowska
InTeOpP | 2012 | ISBN: 9535107399 9789535107392 | 412 pages | PDF | 55 MB
This book provides an extensive overview of current trends in the area of elastomers and their composites from the chapters contributed by internationally recognized specialists. The book deals with novel synthesis, modelling and experimental methods in elastomers. This book addresses to industrial and academic researchers in the fields of physical, chemical, biological sciences and engineering.

“Advanced Elastomers: Technology, Properties and Applications” ed. by Anna Boczkowska
Contents include: new approach to crosslinking, liquid crystal elastomers, nanocomposites, smart elastomers, elastomers in microelectronics and microfluidics, elastomers in cement concrete and mortar, experimental testing and modelling.
Each section demonstrates how enhancements in materials, processes and characterization techniques can improve performance in the field of engineering. The book provides a unique opportunity to discover the latest research on elastomer advances from laboratories around the world.

Contents
Preface
Section 1: New Approach to Elastomer Cross I inking
1 Aspects Regarding Radiation Cross I inking of Elastomers
Section 2: Liquid Crystal Elastomers
2 Monitoring the Contractile Properties of Optically Patterned Liquid Crystal Based Elastomers
3 Polysiloxane Side-Chain Azobenzene-Containing Liquid Single Crystal Elastomers for Photo-Active Artificial Muscle-Like Actuators
Section 3: Elastomer Nanocomposites
4 Rubber Clay Nanocomposites
5 Pigment and Dye Modified Fillers as Elastomeric Additives
Section 4: Smart Elastomers
6 Microstructure and Properties of Magnetorheological Elastomers
7 Thermo-Shrinkable Elastomers
Section 5: Elastomers in Microelectronics and Microflu id ics
8 Elastomer Application in Microsystem and Microflu id ics
9 Elasto meric Electronics: A Microflu id ic Approach
10 Use of Silicone Elastomer-Based Microfluidic Devices and Systems in Reproductive Technologies
Section 6: Elastomers in Cement Concrete and Mortar
11 Technology, Properties and Application of NRL Elastomers
Section 7: Experimental Testing and Modelling of Elastomer Properties
12 Transmittance and Reflectance of an Imprinted Cholesteric Elastomer During a Segregation Process
13 Anelastic Behavior in Filled Elastomers Under Harmonic Loading Using Distributed Rate-Dependent Elasto-Slide Elements
14 Modelling Friction and Abrasive Wear of Elastomers
15 The Significance of Equi-Biaxial Bubble Inflation in Determining Elasto meric Fatigue Properties
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Microelectronics, 2nd Edition

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Microelectronics, 2nd Edition by Jerry C. Whitaker
English | 2006 | ISBN-10: 0849333911 | PDF | 464 pages | 14,4 MB
When it comes to electronics, demand grows as technology shrinks. From consumer and industrial markets to military and aerospace applications, the call is for more functionality in smaller and smaller devices.

Microelectronics, 2nd Edition
Culled from the second edition of the best-selling Electronics Handbook, Microelectronics, Second Edition presents a summary of the current state of microelectronics and its innovative directions. This book focuses on the materials, devices, and applications of microelectronics technology. It details the IC design process and VLSI circuits, including gate arrays, programmable logic devices and arrays, parasitic capacitance, and transmission line delays. Coverage ranges from thermal properties and semiconductor materials to MOSFETs, digital logic families, memory devices, microprocessors, digital-to-analog and analog-to-digital converters, digital filters, and multichip module technology. Expert contributors discuss applications in machine vision, ad hoc networks, printing technologies, and data and optical storage systems. The book also includes defining terms, references, and suggestions for further reading. This edition features two new sections on fundamental properties and semiconductor devices. With updated material and references in every chapter, Microelectronics, Second Edition is an essential reference for work with microelectronics, electronics, circuits, systems, semiconductors, logic design, and microprocessors.
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Getting Started with JUCE

Getting Started with JUCE By Martin Robinson
2013 | 158 Pages | ISBN: 1783283319 | PDF | 2 MB
There are a number of frameworks available for developing cross-platform applications. JUCE achieves this with a combination of consistency, ease-of-use, and breadth of functionality. JUCE is a C++ toolkit for building cross-platform applications on PC, Mac, Linux, iOS, and Android. It encourages you to write consistent code and is particularly good for complex, customized GUIs and audio/midi processing; it also includes a vast range of classes to help with all your day-to-day programming tasks.

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Plasma Electronics: Applications in Microelectronic Device Fabrication

T. Makabe, Z. Petrovic, "Plasma Electronics: Applications in Microelectronic Device Fabrication"
English | 2006-03-27 | ISBN: 0750309768 | 336 pages | PDF | 4.3 mb
Without plasma processing techniques, recent advances in microelectronics fabrication would not have been possible. But beyond simply enabling new capabilities, plasma-based techniques hold the potential to enhance and improve many processes and applications. They are viable over a wide range of size and time scales, and can be used for deposition, etching, and even process monitoring and diagnosis. Plasma Electronics: Applications in Microelectronic Device Fabrication explains the fundamental physics and numerical methods necessary to bring these technologies from the laboratory to the factory. Beginning with an overview of the basic characteristics and applications of low-temperature plasma, preeminent experts Makabe and Petrovic explore the physics underlying the complex behavior of non-equilibrium (or low temperature) plasma. They discuss charged particle transport in general and in detail as well as macroscopic plasma characteristics and elementary processes in gas phase and on surfaces. After laying this groundwork, the book examines state-of-the-art computational methods for modeling plasma and reviews various important applications including inductively and capacitively coupled plasma, magnetically enhanced plasma, and various processing techniques, while numerous problems and worked examples reinforce the concepts. Uniquely combining physics, numerical methods, and practical applications, Plasma Electronics: Applications in Microelectronic Device Fabrication equips you with the knowledge necessary to scale up lab bench breakthroughs into industrial innovations.

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