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This book addresses core questions about the role of materials in general and of wood in particular in the construction of string instruments used in the modern symphony orchestra – violins, violas, cellos and basses. Further attention is given to materials for classical guitars, harps, harpsichords and pianos. While some of the approaches discussed are traditional, most of them depend upon new scientific approaches to the study of the structure of materials, such as for example wood cell structure, which is visible only using modern high resolution microscopic techniques. Many examples of modern and classical instruments are examined, together with the relevance of classical techniques for the treatment of wood. Composite materials, especially designed for soundboards could be a good substitute for some traditional wood species. The body and soundboard of the instrument are of major importance for their acoustical properties, but the study also examines traditional and new wood species used for items such as bows, the instrument neck, string pegs, etc. Wood species’ properties for musical instruments and growth origins of woods used by great makers such as Antonio Stradivari are examined and compared with more recently grown woods available to current makers. The role of varnish in the appearance and acoustics of the final instrument is also discussed, since it has often been proposed as a ‘secret ingredient’ used by great makers. Aspects related to strings are commented.As well as discussing these subjects, with many illustrations from classical and contemporary instruments, the book gives attention to conservation and restoration of old instruments and the physical results of these techniques. There is also discussion of the current value of old instruments both for modern performances and as works of art having great monetary value.The book will be of interest and value to researchers, advanced students, music historians, and contemporary string instrument makers. Musicians in general, particularly those playing string instruments, will also find its revelations fascinating. It will also attract the attention of those using wood for a variety of other purposes, for its use in musical instruments uncovers many of its fundamental features. Professor Neville H. FletcherAustralian National University, Canberra
This book describes the properties of materials used for making percussion instruments for classical music played by a symphony orchestra in which the instruments could be played as a soloist instrument or as a group or several groups of instruments, as they are included into a musical work. A chapter is devoted to the bells. The scope of this book is primarily confined to percussion instruments of symphony orchestras taking into account the centuries of musical art and tradition. This book bridges the gap in the technical literature on describing the properties of materials for percussion instruments—timpani, other drums, marimba, xylophone, vibraphone, gong, cymbal, triangle, celesta, castanets.
This book addresses key questions about the materials used for the wind instruments of classical symphony orchestra such as flutes, clarinets, saxophones, oboes, bassoons and pipe organs. The content of this book is structured into four parts. Part 1- Description of materials for wind instruments deals with wood species and materials for reeds used for making clarinet, oboe and bassoon- and, with metallic materials and alloys for - horn, trumpet, trombone, etc. Auxiliary materials associated with the manufacturing of wind instruments are felt, cork, leather and parchment. Part 2- Basic acoustics of wind instruments, in which are presented succinctly, some pertinent aspects related to the physics of the resonant air column. An important aspect discussed is related to the effect of wall material on the vibration modes of the walls of wind instruments. The methods for measuring the acoustical properties of wind instruments are presented. Part 3- Manufacturing of wind instruments, describes the technology used in manufacturing metallic tubes and pipes made of wood. Part 4 - The durability and degradation of materials addresses data about methods for cleaning wind instruments, studies factors producing degradation of organ pipes, describes methods of conservation and restoration of brass instruments and of historical pipe organs. Finally, the properties of marble are described, being the only one nondegradable and sustainable material used for pipes for organs.
This text has plans for 50 musical instruments, including over 100 drawings and photographs. It teaches the reader how to build their own musical instruments, using knowledge of a variety of diverse cultures from around the world. It includes instruments such as: oil drum gongs, thumb pianos, cowbells, tube drums and willow whistles. All necessary materials can either be purchased or found in nature or a junkyard.
In The Musical Instrument Desk Reference, Michael Pagliaro, musical instrument authority extraordinaire, provides the one-stop shop for those in need of a quick, visually-rich reference guide to band and orchestral instruments. Descriptions and illustrations of everything from the physics of sound to detailed discussions of each orchestra and band instrument make this work the ideal desktop reference tool for the working musician. Through its Quick Start and In Depth features, readers can quickly decide how deeply they want to delve into the instrument at hand. Following a contemporary format designed to facilitate what any musician or music instructor needs to know, The Musical Instrument Desk Reference eliminates the need to leaf through multiple method books or trawl through websites to find information. The Musical Instrument Desk Reference includes general information on fingering, the anatomy of musical instruments, sound production, amplification, and control, as well as the science of sound. Readers will find individual chapters on woodwinds, brass instruments, non-fretted string instruments, and percussion instruments. In each category, Pagliaro delves deeper, describing for woodwinds such things as tuning, key systems, fingerings, sound production, tone holes, assembly, materials, embouchures, and reed use; for brass instruments such matters as valve systems, fingering patterns, French horn types, mouthpiece selection, and intonation; for non-fretted string instruments such issues as tuning and fingering, playing position, bowing technique, instrument parts, and materials; and for percussion instruments such elements as instrument types and their classifications, tuning procedures, and accessories. The Musical Instrument Desk Reference is the perfect guide for anyone interested in or responsible for working with varieties of instruments and their players. Teachers, students, teachers in training, music instructors, instrument technicians, and musicians can quickly locate any specific detail related to any band or orchestral instrument.
While the history of musical instruments is nearly as old as civilisation itself, the science of acoustics is quite recent. By understanding the physical basis of how instruments are used to make music, one hopes ultimately to be able to give physical criteria to distinguish a fine instrument from a mediocre one. At that point science may be able to come to the aid of art in improving the design and performance of musical instruments. As yet, many of the subtleties in musical sounds of which instrument makers and musicians are aware remain beyond the reach of modern acoustic measurements. This book describes the results of such acoustical investigations - fascinating intellectual and practical exercises. Addressed to readers with a reasonable grasp of physics who are not put off by a little mathematics, this book discusses most of the traditional instruments currently in use in Western music. A guide for all who have an interest in music and how it is produced, as well as serving as a comprehensive reference for those undertaking research in the field.
This book brings together empirical and theoretical case-study research on art and heritage crime. Drawn from a diverse group of researchers and professionals, the work presented explores contemporary conceptualisations of art crime within broader contexts. In this volume, we see ‘art’ in its usual forms for art crime scholarship: in paintings and antiquities. However, we also see art in fossils and in violins, chairs and jewellery, holes in the ground and even in the institutions meant to protect any, or all, of the above. And where there is art, there is crime. Chapters in this volume, alternatively, zoom in on specific objects, on specific locations, and on specific institutions, considering how each interact with the various conceptions of crime that exist in those contexts. This volume challenges the boundaries of what we understand as “art and heritage crimes” and displays that both art, and criminality related to art, is creative and unpredictable.
This book is for experienced luthiers and guitar designers in the industry, novice builders wishing to improve their designs, and guitar owners interested in knowing more about their instruments. It includes the most important technical information gathered from many sources, including the academic literature and the author’s own work, presented here in a clear, actionable form with a minimum of mathematics. The book begins with a historical survey on how important features of the acoustic guitar evolved over centuries. The review leads up to a chapter focusing on three iconic instruments that represent the most important types of acoustic guitars: classical, steel string flat top and archtop. As the guitar market is so strongly conditioned by familiar, traditional instruments, a successful builder must have a thorough working understanding of the most important designs to underpin their own work. Through this volume, Professor French lays out the entire design process and collects detailed information in one convenient source. Luthiers quite often compile notebooks of measurements, part numbers, specific design features and other details they routinely need. This book organizes much of that information, with tables of dimensions, material properties, and other details in one essential final chapter. The book also features concise side bar contributions by top guitar designers and builders including Tim Shaw, Chief Engineer at Fender Music; Bob Taylor, Co-Founder of Taylor Guitars; and Andy Powers, Master Guitar Designer and Partner.
Undoubtedly the applications of polymers are rapidly evolving. Technology is continually changing and quickly advancing as polymers are needed to solve a variety of day-to-day challenges leading to improvements in quality of life. The Encyclopedia of Polymer Applications presents state-of-the-art research and development on the applications of polymers. This groundbreaking work provides important overviews to help stimulate further advancements in all areas of polymers. This comprehensive multi-volume reference includes articles contributed from a diverse and global team of renowned researchers. It offers a broad-based perspective on a multitude of topics in a variety of applications, as well as detailed research information, figures, tables, illustrations, and references. The encyclopedia provides introductions, classifications, properties, selection, types, technologies, shelf-life, recycling, testing and applications for each of the entries where applicable. It features critical content for both novices and experts including, engineers, scientists (polymer scientists, materials scientists, biomedical engineers, macromolecular chemists), researchers, and students, as well as interested readers in academia, industry, and research institutions.