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Theory and Application of Quantum-Based Interatomic Potentials in Metals and Alloys

Theory and Application of Quantum-Based Interatomic Potentials in Metals and Alloys
Author: John Moriarty
Publisher: Oxford University Press
Total Pages: 593
Release: 2023-06-29
Genre: Science
ISBN: 0198822170
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Atomistic computer simulations are often at the heart of modern attempts to predict and understand the physical properties of real materials, including the vast domain of metals and alloys. Historically, highly simplified empirical potentials have been used to provide the interatomic forces needed to perform such simulations, but true predictive power in these materials emanates from fundamental quantum mechanics. In metals and alloys especially, a viable path forward to the vastly larger length and time scales offered by empirical potentials, while retaining the predictive power of quantum mechanics, is to course-grain the underlying electronic structure of the material and systematically derive quantum-based interatomic potentials from first-principles. This book spans the entire process from foundation in fundamental theory, to the development of accurate quantum-based potentials for real materials, to the wide-spread application of the potentials to the atomistic simulation of structural, thermodynamic, defect and mechanical properties of metals and alloys.

Novel Quantum-based Interatomic Potentials Applied to Magnesium and Its Alloys

Novel Quantum-based Interatomic Potentials Applied to Magnesium and Its Alloys
Author: Guy Christopher Goodrich Skinner
Publisher:
Total Pages: 0
Release: 2019
Genre:
ISBN:
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Metals have many desirable properties for industrial applications including strength, ductility and hardness. These and other mechanical properties are determined by the behaviour and interaction of crystal defects at the microscale. In order to make top-down predictions for novel alloy design with optimised mechanical properties, the energetics of crystal defects must be calculated with quantum-mechanical accuracy. Quantum-mechanical simulation takes many forms, as highlighted in Chapters 1 and 2, owing to the fact that a solution to the Schrödinger equation is computationally intractable for most systems. Density functional theory (DFT) is one such method which combines accuracy with efficient scaling. However, for the application of extended defects in metals, it is often unable to simulate the requisite number of atoms. This has led to the development of methods which combine the quantum-mechanical insight of DFT with the linear scaling of interatomic potentials. These methods are known as quantum-based interatomic potentials (QBIPs) and the focus of this thesis is the development of QBIPs for Magnesium and its alloys. In particular, we present work on the extension and application of the generalised pseudopotential theory (GPT). We develop the so-called adaptive GPT (aGPT) which resolves a discrepancy in the simple-metal limit of the GPT when applied to free surfaces and free volumes. The GPT formalism has also been applied to alloys, and this was used to generate interatomic potentials for the Magnesium-Calcium alloy system. These potentials were used to study phase stability in order to move towards a ductile Magnesium alloy.

Robust Quantum-Based Interatomic Potentials for Multiscale Modeling in Transition Metals

Robust Quantum-Based Interatomic Potentials for Multiscale Modeling in Transition Metals
Author:
Publisher:
Total Pages:
Release: 2005
Genre:
ISBN:
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First-principles generalized pseudopotential theory (GPT) provides a fundamental basis for transferable multi-ion interatomic potentials in transition metals and alloys within density-functional quantum mechanics. In central bcc transition metals, where multi-ion angular forces are important to structural properties, simplified model GPT or MGPT potentials have been developed based on canonical d bands to allow analytic forms and large-scale atomistic simulations. Robust, advanced-generation MGPT potentials have now been obtained for Ta and Mo and successfully applied to a wide range of structural, thermodynamic, defect and mechanical properties at both ambient and extreme conditions. Selected applications to multiscale modeling discussed here include dislocation core structure and mobility, atomistically informed dislocation dynamics simulations of plasticity, and thermoelasticity and high-pressure strength modeling. Recent algorithm improvements have provided a more general matrix representation of MGPT beyond canonical bands, allowing improved accuracy and extension to f-electron actinide metals, an order of magnitude increase in computational speed for dynamic simulations, and the still-in-progress development of temperature-dependent potentials.

The Theory of the Properties of Metals and Alloys

The Theory of the Properties of Metals and Alloys
Author: Sir Nevill Francis Mott
Publisher: Courier Dover Publications
Total Pages: 360
Release: 1958
Genre: Science
ISBN:
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Quantum methods develop mathematical models: crystal structure, magnetic susceptibility, electrical and optical properties, thermal properties, etc. Unabridged republication of the original (1936) edition.

Molecular Dynamics Simulations of Metals

Molecular Dynamics Simulations of Metals
Author: Bohumir Jelinek
Publisher:
Total Pages:
Release: 2008
Genre: Alloys
ISBN:
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This dissertation describes the development and testing of modified embedded atom method (MEAM) interatomic potentials for Al, Si, Mg, Cu, Fe, and their alloys, with primary concentration on Mg-Al system. We performed the density functional theory (DFT) based ab initio calculations to determine the structural and elastic properties of element pairs that are impractical to obtain from experimental measurements. Specifically, we estimated the cohesive energy, equilibrium atomic volume, bulk modulus, and elastic moduli of every element pair in the NaCl reference structure. Based on the results of DFT calculations, MEAM parameters for each element pair were constructed. We extensively tested the new MEAM potential for Mg-Al alloy system. The new Mg-Al MEAM potential was compared with DFT calculations previously published semiempirical interatomic potentials, and experiments. Applicability of the new MEAM potential to atomistic modeling was demonstrated by calculating stress-strain responses from molecular dynamics (MD) simulations of Mg and Al systems in a variety of configurations. The effects of alloying, porosity, and strain rate conditions on the stress-strain response were quantified. The underlying mechanisms for tension-compression asymmetry observed in the macroscale experiments of Mg alloys were investigated at the nanoscale. This work presents a contribution to the task of bridging quantum-mechanical and classical atomistic scale simulations. Information from ab initio electronic structure calculations was used to construct parameters of semi-empirical MEAM potentials for large-scale atomistic simulations of alloys. The results of the new MEAM models compare extremely well to those from other published interatomic potentials. The applicability of the new MEAM potential to investigate nanoscale mechanisms of the deformation and fracture for Al, Mg and Mg-Al alloys was demonstrated. It has been shown that the MEAM provides a single universal formalism for classical atomistic simulations of a wide range of elements and their alloys.

Computer Simulation in Materials Science

Computer Simulation in Materials Science
Author: M. Meyer
Publisher: Springer
Total Pages: 548
Release: 1991-09-30
Genre: Science
ISBN: 0792314557
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This volume collects the contributions! to the NATO Advanced Study Institute (ASI) held in Aussois (France) by March 25 - April 5, 1991. This NATO ASI was intended to present and illustrate recent advances in computer simulation techniques applied to the study of materials science problems. Introductory lectures have been devoted to classical simulations with special reference to recent technical improvements, in view of their application to complex systems (glasses, molecular systems . . . ). Several other lectures and seminars focused on the methods of elaboration of interatomic potentials and to a critical presentation of quantum simulation techniques. On the other hand, seminars and poster sessions offered the opportunity to discuss the results of a great variety of simulation studies dealing with materials and complex systems. We hope that these proceedings will be of some help for those interested in simulations of material properties. The scientific committee advises have been of crucial importance in determining the conference program. The directors of the ASI express their gratitude to the colleagues who have participated to the committee: Y. Adda, A. Bellemans, G. BIeris, J. Castaing, C. R. A. Catlow, G. Ciccotti, J. Friedel, M. Gillan, J. P. Hansen, M. L. Klein, G. Martin, S. Nose, L. Rull-Fernandez, J. Valleau, J. Villain. The main financial support has been provided by the NATO Scientific Affairs Division and the Commission of European Communities (plan Science).

MOLECULAR DYNAMICS SIMULATIONS OF METALS.

MOLECULAR DYNAMICS SIMULATIONS OF METALS.
Author:
Publisher:
Total Pages:
Release: 2008
Genre:
ISBN:
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This dissertation describes the development and testing of modified embedded atom method (MEAM) interatomic potentials for Al, Si, Mg, Cu, Fe, and their alloys, with primary concentration on Mg-Al system. We performed the density functional theory (DFT) based ab initio calculations to determine the structural and elastic properties of element pairs that are impractical to obtain from experimental measurements. Specifically, we estimated the cohesive energy, equilibrium atomic volume, bulk modulus, and elastic moduli of every element pair in the NaCl reference structure. Based on the results of DFT calculations, MEAM parameters for each element pair were constructed. We extensively tested the new MEAM potential for Mg-Al alloy system. The new Mg-Al MEAM potential was compared with DFT calculations, previously published semi-empirical interatomic potentials, and experiments. Applicability of the new MEAM potential to atomistic modeling was demonstrated by calculating stress-strain responses from molecular dynamics (MD) simulations of Mg and Al systems in a variety of configurations. The effects of alloying, porosity, and strain rate conditions on the stress-strain response were quantified. The underlying mechanisms for tension-compression asymmetry observed in the macroscale experiments of Mg alloys were investigated at the nanoscale. This work presents a contribution to the task of bridging quantum-mechanical and classical atomistic scale simulations. Information from ab initio electronic structure calculations was used to construct parameters of semi-empirical MEAM potentials for large-scale atomistic simulations of alloys. The results of the new MEAM models compare extremely well to those from other published interatomic potentials. The applicability of the new MEAM potential to investigate nanoscale mechanisms of the deformation and fracture for Al, Mg and Mg-Al alloys was demonstrated. It has been shown that the MEAM provides a single universal formalism for clas.

Bimetallic Nanostructures

Bimetallic Nanostructures
Author: Ya-Wen Zhang
Publisher: John Wiley & Sons
Total Pages: 521
Release: 2018-08-06
Genre: Science
ISBN: 1119214645
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Systematically summarizes the current status and recent advances in bimetallic structures, their shape-controlled synthesis, properties, and applications Intensive researches are currently being carried out on bimetallic nanostructures, focusing on a number of fundamental, physical, and chemical questions regarding their synthesis and properties. This book presents a systematic and comprehensive summary of the current status and recent advances in this field, supporting readers in the synthesis of model bimetallic nanoparticles, and the exploration and interpretation of their properties. Bimetallic Nanostructures: Shape-Controlled Synthesis for Catalysis, Plasmonics and Sensing Applications is divided into three parts. Part 1 introduces basic chemical and physical knowledge of bimetallic structures, including fundamentals, computational models, and in situ characterization techniques. Part 2 summarizes recent developments in synthetic methods, characterization, and properties of bimetallic structures from the perspective of morphology effect, including zero-dimensional nanomaterials, one-dimensional nanomaterials, and two-dimensional nanomaterials. Part 3 discusses applications in electrocatalysis, heterogeneous catalysis, plasmonics and sensing. Comprehensive reference for an important multidisciplinary research field Thoroughly summarizes the present state and latest developments in bimetallic structures Helps researchers find optimal synthetic methods and explore new phenomena in surface science and synthetic chemistry of bimetallic nanostructures Bimetallic Nanostructures: Shape-Controlled Synthesis for Catalysis, Plasmonics and Sensing Applications is an excellent source or reference for researchers and advanced students. Academic researchers in nanoscience, nanocatalysis, and surface plasmonics, and those working in industry in areas involving nanotechnology, catalysis and optoelectronics, will find this book of interest.

Scientific and Technical Aerospace Reports

Scientific and Technical Aerospace Reports
Author:
Publisher:
Total Pages: 1460
Release: 1991
Genre: Aeronautics
ISBN:
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Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.