In this second edition of his in-depth and gripping account of the Arizona Miners' Strike of 1983, Jonathan D. Rosenblum describes in a new epilogue the resurgence of union activism at Steelworkers Local 890 in Silver City, New Mexico, more than a decade since the devastating campaign waged by the Phelps Dodge Corporation to obliterate the unions at its Arizona properties.
Metal–Crucible Interactions suggests solutions to a major challenge in high-temperature materials processing. It offers a holistic presentation of the current knowledge of metal–crucible interactions in a compact volume so that readers can make informed decisions on materials selection. Presenting practical information, this book: • Provides an extensive summary of the compatibility a huge variety of metal–container combinations, assembles information about all known significant interactions, and evaluates how they are managed • Explains the underlying reasons for the occurrence and extent of incompatibility between metals and containment and presents some possible solutions • Outlines analytical experimental techniques to quantify compatibility/incompatibility • Covers issues and resolution in interrelated solid–solid, solid–liquid, solid–gas and solid–liquid–gas processes determining compatibility • Discusses all the metals - ferrous, common non ferrous, reactive and refractory metals, rare earths, and the important alloys as well as compounds and special compositions that tide over or remain prone to degradation due to compatibility issues • Highlights the value of addressing all interrelated issues in arriving at reliable solutions to compatibility challenges Aimed at readers in industries dealing with materials processing at high temperatures, research scientists and engineers, and graduate students, this book addresses a topic vital to stimulating immediate and long-term research and development, in ways not previously covered in other books.
Geology coalesced as a discipline in the early part of the nineteenth century, with the coming together of many strands of investigation and thought. The theme of experimentation and/or instrument-aided observation is absent from most recent accounts of that time, which rely on an admixture of theory and field observations, informed by close examination of minerals. James Hutton emerged as the person who had it right with suggestion of a central heat source for Earth, while Abraham Gottlob Werner and his Neptunist supporters were derided as being blinded by overarching belief, as opposed to sober application of observed facts. However, despite several claims that Hutton had won the day, primary literature from both England and the Continent reveals that the question was by no means settled for decades after Hutton derided information derived from "looking into a little crucible." This Special Paper makes the case that it was just those parameters of heat, pressure, solution, and composition discovered in the laboratory that prevented resolution of the overriding questions about rock origin.
