This book presents experimental work conducted on the International Space Station (ISS) in order to characterize metals and alloys in the liquid state. The internationally recognized authors present and discuss experiments performed in microgravity that enabled the study of the relevant volume and surface related properties free of the restrictions of a gravity-based environment. The collection serves also as a handbook of space experiments using electromagnetic levitation techniques. A summary of recent results provides an overview of the wealth of space experiment data, which will ignite further research activities and inspire academics and industrial research departments for their continuous development.
This edition includes updated case studies, illustrations and failure investigations. Examples and photos include space-part production and test failures in electrical inter-connects, structural welds, and corrosion and storage induced problems.
This edited volume examines metallurgical technologies and their place in society throughout the centuries. The authors discuss metal alloys and the use of raw mineral resources as well as fabrication of engineered alloys for a variety of applications. The applications covered in depth include financial, mining and smelting, bridges, armor, aircraft, and power generation. The authors detail the multiple levels and scales of impact that metallurgical advances have had and continue to have on society. They include case studies with guidance for future research design and innovation of metallic materials relevant to societal needs. Includes case studies written by industry professionals with guidance for future research design and innovation; Demonstrates metal materials design that reflects relevant societal needs; Covers a broad range of applied materials used in aircraft, armor, bridges, and power generation, among others.
The world's output of metals during the 100 year period of 1863-1963 was greater than in all the previous years of man's history. In the nineteenth century the only metals available to industry were cast and wrought iron and a few non-ferrous metals and their alloys; by the latter part of the twentieth century, steel and aluminum dominated the world, and metals that were mere laboratory curiosities provided the basis for the technology of nuclear energy and space travel. This book records the extraordinary history of metallurgical progress, in which metal art was replaced by metal science. It remains a classic work on the subject. The book begins with an introductory chapter that surveys the entire field to be covered, and follows with eight chapters each dealing with progress in one of the major branches of the metallurgical industry: ore dressing, pyrometallurgy, iron and steel, the major non-ferrous metals, new metals (such as uranium, germanium and cobalt), precious metals, the shaping of metals, and metallography. The book reviews developments in all countries, but American practice - which led the world - is given special prominence. A glossary of metallurgical terms and full name and subject indexes are included. The book is a basic reference work as well as an absorbing history of an important aspect of man's technological progress.
""Metallurgy: The Forging of Human Progress"" explores the pivotal role of metalworking in shaping human civilization from the Bronze Age to the Space Age. This comprehensive book argues that metallurgy has been a primary driver of technological advancement, acting as both catalyst and foundation for major leaps in human progress. Through a chronological journey, readers discover how the manipulation of metals has consistently preceded and enabled significant developments in tools, weapons, construction, and even spacecraft. The book seamlessly blends historical narratives with scientific explanations, making complex concepts accessible to a general audience interested in science and technology. It covers essential topics such as the discovery of smelting, the advent of steel production, and the creation of superalloys, while also delving into the interplay between metallurgical advancements and economic systems. What sets this work apart is its holistic approach, combining technical details with cultural insights and featuring unique perspectives from leading metallurgists and materials scientists. As the narrative progresses, readers gain a deeper understanding of how metallurgy has influenced various aspects of human society, from warfare to architecture. The book culminates in an exploration of cutting-edge research, addressing ongoing debates in the field and encouraging critical thinking about the future of metallurgy in addressing global challenges. This multifaceted perspective offers readers a comprehensive view of how the art and science of metalworking has truly forged human progress throughout history.
This publication documents Proceedings of the Symposium on Metal lurgy and Technology of Refractory Metal Alloys, held in Washington, D.C. at the Washington Hilton Hotel on April 25-26, 1968, under sponsorship of the Refractory Metals Committee, Institute of Metals Division, of the Metallurgical Society of AIME, and the National Aeronautics and Space Administration. The Symposium presented critical reviews of selected topics in refractory metal alloys, thereby contributing to an in-depth understanding of the state-of-the-art, and establishing a base line for further research, development, and application. This Symposium is fifth in a series of conferences on refractory metals, sponsored by the Metallurgical Society of AlME. Publications issuing from the conferences are valuable technical and historical source books, tracing the evolution of refractory metals from early laboratory alloying studies to their present status as useful engineering materials. Refractory metals are arbitrarily defined by melting point. A 0 melting temperature of over 3500 F was selected as the minimum for this Symposium, thus excluding chromium and vanadium, which logically could be treated with other refractory metals in Groups VA and VIA of the periodic table. The Refractory Metals Committee is planning reviews of chromium and vanadium in subsequent conferences.
The History of Metals in America chronicles the development of metals as both an industrial activity and a science. Progress involving structural metals made possible the air, land, sea, and space travel of today, skyscrapers reaching over 100 stories high, and many other engineering accomplishments that continue to shape modern society. This lively book takes the reader on a fascinating journey through the evolution of metals and metallurgy from the beginning of iron production in colonial times with the first iron plant in 1645 to the prevailing metals of the 21st century. Each chapter describes the development of a metal or series of metal alloys, industry growth, and modern uses in manufacturing. It includes chapters on cast iron, wrought iron, alloy steels, tool steels, stainless steels, nickel-base superalloys, aluminum, and titanium. Other chapters cover the science of metals as it developed from 1890 to 1950 and the biographies of the pioneers of metals research. The final chapters cover the formation, growth, and decline of the integrated steel industry and the rise of a new industry in steel minimills. The History of Metals in America will appeal to readers in all sectors of the materials industry, students and faculty of engineering programs, middle and high school American history students, and anyone interested in the history of technology, travel, tools, and machinery in the U.S. The author, Charles R. Simcoe, wrote more than 40 articles for ASM International’s Advanced Materials & Processes magazine, including a monthly series entitled “Metallurgy Lane,” which became the basis for this book.
Of Volume 3.- Nuclear Applications.- Activated Sintering of Uranium Monocarbide.- The Use of Uranium Aluminide Powders in Nuclear Reactor Fuel Elements.- Powder Metallurgy of Al-Al2O3 Composites (SAP) for Nuclear Applications.- Hot-Pressing of Electrolytic Grade CR Beryllium.- An Experimental Study Concerning Some Effects Occurring During Skeleton Infiltration with Liquid Metals.- Cemented Carbide, Friction, Thermoelectric, Porous, and Heavy Metal Materials.- Cemented Titanium Carbide Cutting Tools.- Investigations of Some Hard Alloys in the Boron-Silicon-Carbon System.- The Elastic Modulus of.