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This introduction to materials science for engineers examines not only the physical and engineering properties of materials, but also their history, uses, development, and some of the implications of resource depletion, materials substitutions, and so forth. Topics covered include: the stone, copper, bronze, and iron ages; physical properties of metals, ceramics, and plastics; electrical and magnetic properties of metals, semiconductors, and insulators; band structure of metals; metallurgy of iron.
This new edition includes new developments in the last five years, updated graphs and other dated information and references.
ties and applications of metals, alloys, ceramics, plastics, and electronic materials by means of easily understandable expla- tions and entertaining historical facts. It is also intended to raise the readers' awareness of their obligations to society as pract- ing engineers and scientists. What has been changed compared to the first edition? Na- rally, there is always room for improvement. Accordingly, a large number of additions, corrections, and clarifications have been made on almost each page. Furthermore, the treatment of "hi- tech ceramics" has been substantially expanded (mostly at the suggestions of my colleagues) by including topics such as silicon nitride ceramics, transformation-toughened zirconia, alumina, ultra-hard ceramics, and bioceramics. A separate section on c- posite materials has been added, including fiber-reinforced composites, particular composites, and laminar composites. A section on advanced fabrics seemed to be of interest to the re- ers. Most of all,however, Chapter 18 (Economic and Envir- mental Considerations) has been rewritten and expanded in many places by updating the statistical information on prices of materials, production figures, world reserves, consumption (p- ticularly oil), recycling (particularly plastics, paper, household batteries, electronic scrap, automobiles), the possible use of "b- diesel" (rape plant oil), waste prevention, lead-free solder, energy savings through recycling, efficient design, and stability of - terials. The iron and steel production statistics were updated in Chapter 7, and new figures on gold production and consumption were included in Chapter 17.
This new edition includes new developments in the last five years, updated graphs and other dated information and references.
ties and applications of metals, alloys, ceramics, plastics, and electronic materials by means of easily understandable expla- tions and entertaining historical facts. It is also intended to raise the readers' awareness of their obligations to society as pract- ing engineers and scientists. What has been changed compared to the first edition? Na- rally, there is always room for improvement. Accordingly, a large number of additions, corrections, and clarifications have been made on almost each page. Furthermore, the treatment of "hi- tech ceramics" has been substantially expanded (mostly at the suggestions of my colleagues) by including topics such as silicon nitride ceramics, transformation-toughened zirconia, alumina, ultra-hard ceramics, and bioceramics. A separate section on c- posite materials has been added, including fiber-reinforced composites, particular composites, and laminar composites. A section on advanced fabrics seemed to be of interest to the re- ers. Most of all,however, Chapter 18 (Economic and Envir- mental Considerations) has been rewritten and expanded in many places by updating the statistical information on prices of materials, production figures, world reserves, consumption (p- ticularly oil), recycling (particularly plastics, paper, household batteries, electronic scrap, automobiles), the possible use of "b- diesel" (rape plant oil), waste prevention, lead-free solder, energy savings through recycling, efficient design, and stability of - terials. The iron and steel production statistics were updated in Chapter 7, and new figures on gold production and consumption were included in Chapter 17.
SOME PRAISE FOR PREVIOUS EDITIONS
SCIENTIFIC AMERICAN, James D. Livingston
Hummel teaches materials science at the University of Florida, where this book will presumably be used as a text. In his preface, however, he expresses the hope that his book will also attract a sizable readership from the humanities. Such readers would enjoy reading the historical sections, studying the color plates and at least skimming the more technical chapters to get a quick overview of the basic science of materials.
CHOICE MAGAZINE "Hummel's coverage is similar to that of every good basic materials science book...However, Hummel goes one step further by incorporating far more of the historical development of materials through the ages. By showing how materials shaped civilization and advanced it at critical times, the author has created a book that should arouse the interest of readers. The history, properties and applications of materials that are woven into each chapter should be a good motivating force for learning. Ample referenced are included at the end of each chapter, as well as a summary and thought-provoking problems. General readers; undergraduates; two-year technical program students."
MRS BULLETIN "This is a first-class book...Hummel cunningly alternates scientific chapters with historical ones...He has succeeded admirably in rendering intrinsically complicated topics, such as polymerization, palatable, and digestible...This mix of proper science and respectable history is something new among the plethora of materials science books...As a first-level introduction to materials science I can recommend it unreservedly...Much will depend on the quality and dedication of the teachers who use this as a teaching-text: but really, they should try!"
IEEE ELECTRICAL INSULATION MAGAZINE "This book not only provides a thorough introduction into the science and engineering of materialsbut also covers historical aspects of materials. The interesting historical perspective traces the utilization, properties, and production techniques of materials from the Stone Age via the Bronze Age and the Iron Age up to modern times...This book was written for engineering, physics, and material science students who will this book an easily understandable and enjoyable introduction to the properties of materials and the fundamental theories that describe them...Practicing engineers without a materials science background who need to use material science techniques will find this book very useful for quickly gaining an overview of materials science."
PHYSICS TODAY "There is a real need for books like this, since a visit to any large bookstore will reveal very few popular science books that deal with the practical impacts of the enormous materials revolution that has defined and enabled our present technology era. Hummel tires - and succeeds - to relate the historical developments in the various materials eras (stone, bronze, iron, and electronic) to the principle defining features of the various classes of materials...An additional aspect of materials that is nicely covered in Hummel's book is the environmental and economic implications of society's use of materials. The discussions of world resources, the remaining supply of various materials and the fundamental underlying waste disposal and recycling will be fascinating to both the science student and the general reader."
PHYSICS WORLD "I have first to admit that this book is a remarkable achievement. For a work in which aesthetics is centrally important, the author (and more especially the publisher) should be congratulated on producing at a reasonable cost a book that pleases most of the senses...anyone who has the money to acquire and the time to read [this book] will gain much pleasure from a beautifully produced book, will enjoy looking at the illustrations, and obtain much instruction from the text."
SCIENTIFIC AMERICAN, James D. Livingston
Hummel teaches materials science at the University of Florida, where this book will presumably be used as a text. In his preface, however, he expresses the hope that his book will also attract a sizable readership from the humanities. Such readers would enjoy reading the historical sections, studying the color plates and at least skimming the more technical chapters to get a quick overview of the basic science of materials.
CHOICE MAGAZINE "Hummel's coverage is similar to that of every good basic materials science book...However, Hummel goes one step further by incorporating far more of the historical development of materials through the ages. By showing how materials shaped civilization and advanced it at critical times, the author has created a book that should arouse the interest of readers. The history, properties and applications of materials that are woven into each chapter should be a good motivating force for learning. Ample referenced are included at the end of each chapter, as well as a summary and thought-provoking problems. General readers; undergraduates; two-year technical program students."
MRS BULLETIN "This is a first-class book...Hummel cunningly alternates scientific chapters with historical ones...He has succeeded admirably in rendering intrinsically complicated topics, such as polymerization, palatable, and digestible...This mix of proper science and respectable history is something new among the plethora of materials science books...As a first-level introduction to materials science I can recommend it unreservedly...Much will depend on the quality and dedication of the teachers who use this as a teaching-text: but really, they should try!"
IEEE ELECTRICAL INSULATION MAGAZINE "This book not only provides a thorough introduction into the science and engineering of materialsbut also covers historical aspects of materials. The interesting historical perspective traces the utilization, properties, and production techniques of materials from the Stone Age via the Bronze Age and the Iron Age up to modern times...This book was written for engineering, physics, and material science students who will this book an easily understandable and enjoyable introduction to the properties of materials and the fundamental theories that describe them...Practicing engineers without a materials science background who need to use material science techniques will find this book very useful for quickly gaining an overview of materials science."
PHYSICS TODAY "There is a real need for books like this, since a visit to any large bookstore will reveal very few popular science books that deal with the practical impacts of the enormous materials revolution that has defined and enabled our present technology era. Hummel tires - and succeeds - to relate the historical developments in the various materials eras (stone, bronze, iron, and electronic) to the principle defining features of the various classes of materials...An additional aspect of materials that is nicely covered in Hummel's book is the environmental and economic implications of society's use of materials. The discussions of world resources, the remaining supply of various materials and the fundamental underlying waste disposal and recycling will be fascinating to both the science student and the general reader."
PHYSICS WORLD "I have first to admit that this book is a remarkable achievement. For a work in which aesthetics is centrally important, the author (and more especially the publisher) should be congratulated on producing at a reasonable cost a book that pleases most of the senses...anyone who has the money to acquire and the time to read [this book] will gain much pleasure from a beautifully produced book, will enjoy looking at the illustrations, and obtain much instruction from the text."