Wiley-VCH, 2011, 409 pages
Complex metallic alloys (CMA) encompass a broad family of crystalline compounds made of metals, alloyed with other elements from the periodic table. As opposed to simple crystals, such as diamond and sodium chloride, CMAs possess a complicated microscopic structure that leads to unexpected novel physical and chemical properties. This makes them promising candidates for such applications as thermoelectric devices, scratchproof surfaces or CMA-reinforced structural materials for mechanical engineering.
Covering fundamental research as well as real-world applications, this first book on CMAs at an introductory level treats everything from atomistic details to surface processing. Comprehensive, self-contained chapters provide the latest knowledge on the most salient features of the topic, selected in terms of their relevance to potential technological applications.
From the contents:
Physics of CMAs: theory and experiments
Surface science of CMAs
Metallurgy, preparation and processing, thin films
Surface chemistry of CMAs
Mechanical engineering properties
Thermoelectricity
Catalysis on intermetallic compounds
Edited by one of the most distinguished authorities on quasicrystals and this most important of their subclasses, the contributions elucidate aspects of CMAs from one particular viewpoint: physical and chemical characteristics in the sub-nanometer regime, mesoscale phenomena, preparation and processing of thin films, and large-scale engineering properties. The whole is rounded off by a look at the commercial potential of CMA-based applications.
For PhD students and lecturers alike.
Complex metallic alloys (CMA) encompass a broad family of crystalline compounds made of metals, alloyed with other elements from the periodic table. As opposed to simple crystals, such as diamond and sodium chloride, CMAs possess a complicated microscopic structure that leads to unexpected novel physical and chemical properties. This makes them promising candidates for such applications as thermoelectric devices, scratchproof surfaces or CMA-reinforced structural materials for mechanical engineering.
Covering fundamental research as well as real-world applications, this first book on CMAs at an introductory level treats everything from atomistic details to surface processing. Comprehensive, self-contained chapters provide the latest knowledge on the most salient features of the topic, selected in terms of their relevance to potential technological applications.
From the contents:
Physics of CMAs: theory and experiments
Surface science of CMAs
Metallurgy, preparation and processing, thin films
Surface chemistry of CMAs
Mechanical engineering properties
Thermoelectricity
Catalysis on intermetallic compounds
Edited by one of the most distinguished authorities on quasicrystals and this most important of their subclasses, the contributions elucidate aspects of CMAs from one particular viewpoint: physical and chemical characteristics in the sub-nanometer regime, mesoscale phenomena, preparation and processing of thin films, and large-scale engineering properties. The whole is rounded off by a look at the commercial potential of CMA-based applications.
For PhD students and lecturers alike.