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Metallurgy early development

Fleming, S.J. and Swann C. P. (1993). Recent applications of PIXE spectrometry in archaeology. 1. Observations on the early development of copper metallurgy in the Old-World. Nuclear Instruments and Methods in Physics Research B 75 440-444. [Pg.363]

The evolution of superalloys has been splendidly mapped by an Ameriean metallurgist, Sims (1966, 1984), while the more restrieted tale of the British side of this development has been told by Pfeil (1963). I have analysed (Cahn 1973) some of the lessons to be drawn from the early stages of this story in the eontext of the methods of alloy design it really is an evolutionary tale... the survival of the fittest, over and over again. The present status of superalloy metallurgy is eoneisely presented by MeLean (1996). [Pg.352]

In the following sections, the most important commercial applications of solvent-extraction technology in the field of extractive metallurgy are discussed in terms of the coordination chemistry relevant to the extraction process. The sole criterion for the inclusion of a given process is that it should have been utilized on an industrial scale. It may be noted that several interesting extraction systems in the early stages of development have been excluded on this basis, despite the pertinence of the chemical principles involved. [Pg.789]

Apart from the Minoans and, later, the Mycenaeans, the Early Cycladic people played an important part in the development of Mediterranean metallurgy. In fact, the Cycladic islands of the central Aegean came into extraordinary prominence in the third millennium B.C. The islands were the home of a flourishing culture with prominent settlements, a rather abundant population, well-developed pottery, and striking achievements in marble sculpture. Production of silver, lead (5), and copper from their ores was developed early, along with a rather vigorous trade. [Pg.161]


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