Advances in Additive Manufacturing for Architectural Acoustics (2026-02)¶
, Kupolati Williams, Ackerman Chris
Journal Article - Additive Manufacturing Letters, No. 100368
Abstract
Additive Manufacturing (AM), commonly referred to as 3D printing, has emerged as a transformative technology in the construction sector, enabling unprecedented geometric freedom, automation, and material efficiency. While its adoption for structural applications has accelerated, its integration into building acoustics remains limited and fragmented. This systematic review synthesizes findings from 79 peer-reviewed studies to evaluate the current state of AM for architectural acoustic applications, with emphasis on materials, design strategies, validation methods, and implementation challenges. Four dominant constraint categories are identified: material limitations (≈38%), structural and design constraints (≈19%), modeling and prediction inaccuracies (≈16%), and acoustic performance limitations, particularly narrow operational bandwidths (≈27%). The review highlights the critical role of geometry-driven design, including acoustic metamaterials and micro-perforated panels, enabled by AM processes such as material extrusion, vat photopolymerization, and powder bed fusion. However, persistent challenges related to sustainability, process scalability, surface quality, and limited field-scale validation restrict broader adoption. Emerging solutions, including AI-assisted material formulation, generative acoustic design, and hybrid computational–experimental workflows, are identified as key enablers for progress. The findings provide actionable insights for engineers and designers seeking to deploy AM-based acoustic components in buildings and establish a roadmap for advancing scalable, sustainable, and high-performance architectural acoustics.
¶
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0 Citations
BibTeX
@article{esan_kupo_acke.2026.AiAMfAA,
author = "Taiwo Martins Esan and Williams Kehinde Kupolati and Chris Ackerman",
title = "Advances in Additive Manufacturing for Architectural Acoustics: Design, Materials, Validation, and Implementation Challenges in Building Construction",
doi = "10.1016/j.addlet.2026.100368",
year = "2026",
journal = "Additive Manufacturing Letters",
pages = "100368",
}
Formatted Citation
T. M. Esan, W. K. Kupolati and C. Ackerman, “Advances in Additive Manufacturing for Architectural Acoustics: Design, Materials, Validation, and Implementation Challenges in Building Construction”, Additive Manufacturing Letters, p. 100368, 2026, doi: 10.1016/j.addlet.2026.100368.
Esan, Taiwo Martins, Williams Kehinde Kupolati, and Chris Ackerman. “Advances in Additive Manufacturing for Architectural Acoustics: Design, Materials, Validation, and Implementation Challenges in Building Construction”. Additive Manufacturing Letters, 2026, 100368. https://doi.org/10.1016/j.addlet.2026.100368.