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200 10$aFocal impulse theory $emusical expression, meter, and the body /$fJohn Paul Ito
205   $a1st ed.
210  1$aBloomington, Indiana :$cIndiana University Press,$d[2020]
210  4$d©2020
215   $a1 online resource (xx, 376 pages) $cillustrations
225 0 $aMusical Meaning and Interpretation 
300   $aIndex.
300   $aDescription based upon print version of record.
311   $a0-253-04993-8 
311   $a0-253-05247-5 
320   $aIncludes bibliographical references and index.
327   $a9. Anticipations and Secondary Focal Impulses -- 10. Inflecting Focal Impulses Downward and Upward -- 11. More Advanced Uses of Inflected Impulse Cycles -- 12. Performing Metrical Dissonance -- Part 4. Connecting Focal Impulse Theory -- 13. Connections with Psychology -- 14. Connections with Other Music Scholarship -- Part 5. Applying Focal Impulse Theory -- 15. Metrical Dissonance in Brahms -- 16. The First Movements of the Brahms Sonatas op. 120 -- Conclusions: Placing Focal Impulse Theory in Larger Contexts -- Glossary: Focal Impulse Symbols and Their Definitions -- References -- Discography
327   $aCover -- Title Page -- Copyright -- Contents -- Accessing Audiovisual Materials -- Preface -- Copyright Acknowledgments -- Part 1. Introduction -- 1. Introducing the Focal Impulse and Its Theory -- 2. Foundations in Music Theory and Cognitive Science -- Part 2. Basic Focal Impulse Theory -- 3. The Basic Concept of the Focal Impulse -- 4. Focal Impulses and Meter: The Simplest Cases -- 5. The Sound of Focal Impulses -- 6. More on Focal Impulses and Meter -- 7. Focal Impulses and Characters of Syncopation -- Part 3. Expanding Focal Impulse Theory -- 8. Special Cases of Focal Impulse Placement
330   $aAs Focal Impulse Theory deftly illustrates, bodily movements carry musical meaning and, in a very real sense, are meaning.
410  0$aMusical meaning and interpretation.
606   $aMusical meter and rhythm
606   $aMusic$xInterpretation (Phrasing, dynamics, etc.)
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615  0$aMusical meter and rhythm.
615  0$aMusic$xInterpretation (Phrasing, dynamics, etc.)
615  0$aMusic$xPerformance$xPhysiological aspects.
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200 10$aModeling and Simulation of Functionalized Materials for Additive Manufacturing and 3D Printing: Continuous and Discrete Media $eContinuum and Discrete Element Methods /$fby Tarek I. Zohdi
205   $a1st ed. 2018.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2018.
215   $a1 online resource (XIX, 298 p. 83 illus., 34 illus. in color.) 
225 1 $aLecture Notes in Applied and Computational Mechanics,$x1613-7736 ;$v60
311 08$a3-319-70077-4 
320   $aIncludes bibliographical references at the end of each chapters.
327   $aFrom the Content: Introduction: Additive/3D Printing Materials-filaments, Functionalized-inks and Powders.- PART I-Continuum Methods (CM) : Basic Continuum Mechanics -- CM Approaches: Characterization of Particle-functionalized Materials -- CM Approaches: Estimation and Optimization of the Effective Properties of Mixtures.- CM Approaches: Numerical thermo-mechanical Formulations.
330   $aWithin the last decade, several industrialized countries have stressed the importance of advanced manufacturing to their economies. Many of these plans have highlighted the development of additive manufacturing techniques, such as 3D printing which, as of 2018, are still in their infancy. The objective is to develop superior products, produced at lower overall operational costs. For these goals to be realized, a deep understanding of the essential ingredients comprising the materials involved in additive manufacturing is needed. The combination of rigorous material modeling theories, coupled with the dramatic increase of computational power can potentially play a significant role in the analysis, control, and design of many emerging additive manufacturing processes. Specialized materials and the precise design of their properties are key factors in the processes. Specifically, particle-functionalized materials play a central role in this field, in three main regimes:  (1) to enhance overall filament-based material properties, by embedding particles within a binder, which is then passed through a heating element and the deposited onto a surface,  (2) to ?functionalize? inks by adding particles to freely flowing solvents forming a mixture, which is then deposited onto a surface and  (3) to directly deposit particles, as dry powders, onto surfaces and then to heat them with a laser, e-beam or other external source, in order to fuse them into place. The goal of these processes is primarily to build surface structures which are extremely difficult to construct using classical manufacturing methods. The objective of this monograph is introduce the readers to basic techniques which can allow them to rapidly develop and analyze particulate-based materials needed in such additive manufacturing processes. This monograph is broken into two main parts: ?Continuum Method? (CM) approaches and ?Discrete Element Method? (DEM) approaches. The materials associated with methods (1) and (2) are closely related types of continua (particles embedded in a continuous binder) and are treated using continuum approaches. The materials in method (3), which are of a discrete particulate character, are analyzed using discrete element methods.
410  0$aLecture Notes in Applied and Computational Mechanics,$x1613-7736 ;$v60
606   $aManufactures
606   $aManufacturing, Machines, Tools, Processes$3https://scigraph.springernature.com/ontologies/product-market-codes/T22050
606   $aManufacturing, Machines, Tools, Processes$3https://scigraph.springernature.com/ontologies/product-market-codes/T22050
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615 14$aManufacturing, Machines, Tools, Processes.
615 24$aManufacturing, Machines, Tools, Processes.
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