Book > Hybrid Atomic Level Interface Design For Materials Functionality

Hybrid Atomic Level Interface Design for Materials Functionality

Hybrid Atomic Level Interface Design for Materials Functionality

Detail Book : Hybrid Atomic Level Interface Design for Materials Functionality written by Ajit K. Roy, published by Elsevier which was released on 15 March 2021. Download Hybrid Atomic Level Interface Design for Materials Functionality Books now! Available in PDF, ePub and Kindle. Hybrid Atomic-Level Interface Design for Materials Functionality covers a broad range of atomistic, meso and macro scale computational methodologies, including multiphase (hybrid) materials constructs for tailoring structural, thermal and electrical properties. As future materials are expected to perform with increasing efficiency in complex and dynamic environments hybrid materials design, in contrast to monolithic concepts, they are a cost-effective alternative. Taking materials hybridization at smaller scale, even at atomic scale, offers exceedingly high-payoff opportunities for optimizing materials functionality at reduced material consumption and even reduced qualification costs (eliminates many costly component and system level qualification tests). Presents computational methodologies for materials hybridization and interface design at the atomic scale. Covers materials interface design (atomic configuration), a key component to optimize and achieve performance metrics Helps readers with material selectivity and in the materials design phase of any product design

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Author : Ajit K. Roy
Release Date : 15 March 2021
Publisher : Elsevier
Rating : 4/5 (from 21 users)
Pages : 350
ISBN : 9780128191170
Format : PDF, ePUB, KF8, PDB, MOBI, Tuebl
Hybrid Atomic Level Interface Design for Materials Functionality

Hybrid Atomic Level Interface Design for Materials Functionality

Hybrid Atomic-Level Interface Design for Materials Functionality covers a broad range of atomistic, meso and macro scale computational methodologies, including multiphase (hybrid) materials constructs for tailoring structural, thermal and electrical properties. As future materials are expected to perform with increasing efficiency in complex and dynamic environments hybrid materials design, in

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