3D-Printed Musical Instruments: Lessons Learned from Five Case Studies

Q1 Arts and Humanities

Music Science Pub Date : 2023-01-01 DOI:10.1177/20592043231210653

Ricardo Simian

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Abstract

The music field is lively and creative, and innovation in the final product is a leading force in the sector. However, the physical instruments used by musicians to produce their craft are highly conservative and have developed little over the last centuries. Computers, audio software, and electronic musical instruments have been integrated into musical practice, but acoustic instrument design has remained virtually frozen. Although mass production methods are frequently applied to musical instrument production nowadays, the designs have changed minimally, which makes the musical landscape unique. Additive manufacturing (AM) provides novel possibilities that can be of interest in music and musical research. In this article, we present the results of five case studies on AM use within specific musical niches. Each niche represents a unique market space and cultural background that is critical in tradition-oriented environments. Starting from the analysis of these five case studies, we extract lessons on AM application to unique environments. From these, we discuss the potential for AM-driven innovation in design and production in general and propose a holistic evaluation matrix for identifying suitable market niches.

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3d打印乐器:从五个案例研究中吸取的教训

音乐领域充满活力和创造力，最终产品的创新是该领域的主导力量。然而，音乐家用来制作他们的工艺的物理乐器是高度保守的，在过去的几个世纪里几乎没有发展。计算机、音频软件和电子乐器已经融入到音乐实践中，但原声乐器设计实际上仍然处于停滞状态。虽然现在大量生产的方法经常应用于乐器生产，但设计变化很小，这使得音乐景观独特。增材制造(AM)为音乐和音乐研究提供了新的可能性。在这篇文章中，我们提出了在特定的音乐利基中使用AM的五个案例研究的结果。每个利基都代表着一个独特的市场空间和文化背景，这在以传统为导向的环境中至关重要。从这五个案例分析开始，我们提取了AM应用于独特环境的经验教训。在此基础上，我们讨论了am驱动的设计和生产创新的潜力，并提出了一个整体评估矩阵来确定合适的市场利基。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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