2 edition of Principles of the properties of materials found in the catalog.
Principles of the properties of materials
J. P. Frankel
Written in English
|Statement||by J.P. Frankel.|
The physical properties of a metal or a plastic determine its behavior under stress, heat, and exposure to chemically active substances. In practical application, behavior of a material under these conditions determines its mechanical properties, indentation, and rusting. This is one of over 2, courses on OCW. Find materials for this course in the pages linked along the left. MIT OpenCourseWare is a free & open publication of material from thousands of MIT courses, covering the entire MIT curriculum. No enrollment or registration. Freely browse and use OCW materials at your own pace.
This is the most often book I've read until this time. It contains less basic principles of materials science than MSE book: an Introduction by William Callister. I love only one part of this book since i'm thoroughly working and studying in semiconductor field. Yes, I love semiconductor. It has back-end and front-end basic principles.4/5(2). Understanding polymer morphology can ultimately help scientists achieve ideal properties and applications of polymeric materials. With a focus on structure-property relationships, Polymer Morphology: Principles, Characterization, and Processing covers structure development, theory, simulation, and processing; and discusses a broad range of Reviews: 1.
This unified approach to polymer material science covers the wide range of underlying principles: from molecular structure to material properties; from the relationships between part design, processing and performance to mechanical properties and failure mechanisms. The book stands out with many full-color graphs and figures that visually convey what polymers can--and cannot--accomplish in Reviews: 2. Experts must be able to analyze and distinguish all materials, or combinations of materials, in use today—whether they be metals, ceramics, polymers, semiconductors, or composites. To understand a material’s structure, how that structure determines its properties, and how that material will subsequently work in technological applications, researchers apply basic principles of .
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The second volume in the author’s three-part series, Properties of Materials uses the principles of classical mechanics to qualitatively and quantitatively model specific features of matter.
The text develops linear models of elasticity to correlate and quantify the changes in an object’s shape induced by the application of a constant by: 3. Ideal for a variety of courses in materials science, Properties of Materials offers students a wide-ranging and introductory survey of this exciting field.
It uses an atomic and molecular approach to introduce the basic principles of materials science from the perspective of various properties--optical, thermal, electrical, magnetic, and mechanical--highlighting the relationships among the by: Materials Principles and Practice deals with materials science in the technological context of making and using materials.
Topics covered include the nature of materials such as crystals, an atomic view of solids, temperature effects on materials, and the mechanical and chemical properties of materials.
Principles of Materials Science and Engineering - William F. Smith - Google Books. Designed for a first course in engineering materials for undergraduate engineering students, this text provides up. Thermoelectric Materials: Principles, Structure, Properties, and Applications.
Science and Principles of Biodegradable and Bioresorbable Medical Polymers: Materials and Properties provides a practical guide to the use of biodegradable and bioresorbable polymers for study, research, and applications within medicine.
Fundamentals of the basic principles and science behind the use of biodegradable polymers in advanced research and in medical and pharmaceutical. 5 - Nanomagnetic Materials Pages - One of the guiding principles of nanotechnology is the observed changes in properties between bulk and nanoscale materials.
Perhaps the best example of this principle is observed from magnetic nanomaterials, wherein magnetic properties can be altered drastically with the size of the material. This book focuses primarily on senior undergraduates and graduates in Electromagnetics Waves and Materials courses.
The book takes an integrative approach to the subject of electromagnetics by supplementing quintessential "old school" information and methods with instruction in the use of new commercial software such as MATLAB.
PRINCIPLES IN MATERIALS DESIGN PRESENTED BY NUNAN, TOMLINSON, HUTCHINSON AND WATERS II. DISCUSSION 1. Materials should be clearly linked to the curriculum they serve. Materials should be authentic in terms of text and task. Materials should stimulate interaction.
DAVID NUNAN’S SIX PRINCIPLES IN MATERIALS DESIGN () 4. Principles and Applications of Organic Light Emitting Diodes (OLEDs)explores the ways in which the development of organic semiconductor materials is opening up new applications in electronic and optoelectronic luminescent devices.
The book begins by covering the principles of luminescence and the luminescent properties of organic semiconductors. While this is a fundamental materials science and engineering text, it simply is outdated.
Many of its sources originating from the 50s and 60s, modern research is either more clear or more robust. Modern physics texts like Griffiths read conversationally and in a concise manner. This text is the opposite, and truly seems s: the material’s response to unidirectional stress to provide an overview of mechanical properties without addressing the complexities of multidirectional stress states.
Most of the chapter will restrictitselftosmall-strainbehavior,althoughthelastsectiononstress-straincurveswillpreview materialresponsetononlinear,yieldandfracturebehavioraswell. Download Principles of Composite Material Mechanics By Ronald F.
Gibson – covers a unique blend of classical and contemporary mechanics of composites technologies. It presents analytical approaches ranging from the elementary mechanics of materials to more advanced elasticity and finite element numerical methods, discusses novel materials such as nanocomposites and hybrid multiscale.
Principles of Photonics - by Jia-Ming Liu August Optical Properties of Materials. Jia-Ming Liu, University of California, Los Angeles; Recommend this book. Email your librarian or administrator to recommend adding this book to your organisation's collection.
Principles of Photonics. Jia-Ming Liu; Online ISBN: Book DOI Cited by: 1. The mechanical properties of a material reflect the relationship between its response to or deformation from an applied load or force.
Important mechanical properties are strength, hardness, ductility and stiffness. PHYSICAL AND MECHANICAL PROPERTIES OF MATERIALS Melting temperature 9 Density 10 Young’s modulus 11 Yield stress and tensile strength 12 Fracture toughness 13 Environmental resistance 14 Uniaxial tensile response of selected metals and polymers 15 III.
MATERIAL PROPERTY CHARTS. Materials Processing is the first textbook to bring the fundamental concepts of materials processing together in a unified approach that highlights the overlap in scientific and engineering principles.
It teaches students the key principles involved in the processing of engineering materials, specifically metals, ceramics and polymers, from. Principles of the properties of materials. New York: McGraw-Hill, (OCoLC) Document Type: Book: All Authors / Contributors: Jacob Porter Frankel. The Springer Series in Materials Science covers the complete spectrum of materials research and technology, including fundamental principles, physical properties, materials theory and design.
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Book Description Designed for advanced undergraduate students and as a useful reference book for materials researchers, Physical Properties of Materials, Third Edition establishes the principles that control the optical, thermal, electronic, magnetic, and mechanical properties of materials.Fundamentals of the basic principles and science behind the use of biodegradable polymers in advanced research and in medical and pharmaceutical applications are presented, as are important new concepts and principles covering materials, properties, and computer modeling, providing the reader with useful tools that will aid their own research.The book gives a description of the failure phenomena of ceramic materials under mechanical loading, the methods to determine their properties, and the principles for material selection.
The book presents fracture mechanical and statistical principles and their application to describe the scatter of strength and lifetime, while special chapters are devoted to creep behaviour, multiaxial.