Titlebook: Microstructure-Property Correlations for Hard, Superhard, and Ultrahard Materials; Valentine Kanyanta Book 2016 Springer International Pub

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Ergots

Book 2016aging methods and properties measurements such as hardness, strength, elastic modulus, and fracture toughness. Current and future trends in hard and superhard material design are revealed by the authors, including nanostructured materials, biomimicry, and novel manufacturing technologies.

投射

Measurements of Hardness and Other Mechanical Properties of Hard and Superhard Materials and Coatinties of super- and ultrahard thin films on softer substrates. It is shown that the Bückle’s rule, according to which the indentation depth should not exceed 10 % of the film thickness of a hard film on soft substrate, does not apply for hard and superhard materials.

subacute

Book 2016e authors discuss the effect of manufacturing and processing routes on microstructure and properties. They identify appropriate microstructure and mechanical characterization techniques essential for developing accurate microstructure-property relationships. The techniques include high resolution im

亚麻制品

Hard, Superhard and Ultrahard Materials: An Overview,hard and ultrahard materials required for current and emerging applications. It is obvious that in order to design a material with tailored properties, an understanding of how the microstructure affects the properties of the material, as well as how such a microstructure is realised via different sy

Anterior

Coronation

Structure-Properties Relationships,etween strength and fracture toughness are also highlighted. The chapter also serves as an introduction to the later chapters where techniques for microstructure analysis and property testing are discussed in greater detail (Chap. .). In Chap. . an in-depth discussion of nanostructured materials and

NIL

Superhard and Ultrahard Nanostructured Materials and Coatings,way, extrinsically ultrahard materials, such as nanotwinned nt-c-BN and nt-diamond, and nanocomposites consisting of 3–4 nm small transition metal nitride with about one monolayer silicon nitride interfacial layer with hardness exceeding 100 GPa have been prepared. We discuss the conditions which ha

Obscure

Future of Superhard Material Design, Processing and Manufacturing,ng controlled defects, designing functionally graded structures, nanostructuring and imbedding a three-dimensionally interpenetrating network of a tough phase inside a brittle matrix. Secondly, the chapter briefly discusses additive manufacturing (e.g. 3D printing) as a route to reducing material wa

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