Polyx’s Parametric Acoustic Panels

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In the evolving landscape of architectural acoustics, MOH Design has embraced Polyx’s parametric approach to revolutionize acoustic paneling. By integrating computational design with advanced materials, this collaboration achieves both aesthetic appeal and superior sound management. Utilizing tools like Rhino 3D and Grasshopper Rhino, Polyx crafts intricate parametric designs that enhance acoustic performance while maintaining visual harmony. This synergy reflects the innovative spirit of designers such as Zaha Hadid and Arturo Tedeschi, pushing the boundaries of what’s possible in modern architecture.

The Impact of Parametric Design on Acoustic Paneling

Parametric design has transformed acoustic paneling by enabling the creation of complex geometries tailored to specific acoustic requirements. Through computational design, MOH Design and Polyx develop panels that not only absorb and diffuse sound effectively but also contribute to the visual dynamics of a space. This approach allows for precise control over panel characteristics, ensuring optimal sound management. By employing parametric facade design, the panels can be customized to fit various architectural contexts, enhancing both form and function.

The use of advanced software like Rhino 3D and Grasshopper Rhino facilitates the exploration of innovative solutions, leading to the development of kinetic structures that adapt to changing acoustic environments. This integration of technology and design exemplifies the principles of DFMA (Design for Manufacturing and Assembly), ensuring that the panels are not only effective but also efficient to produce and install.

Polyx's Innovative Acoustic Panel Solutions

Polyx offers a range of acoustic panel solutions that exemplify the fusion of parametric design and functionality.

Tessellate Panels

The Tessellate series features faceted three-dimensional panels—Kite, Tri, and Hex—that can be modularly arranged to form complex geometries. These panels are made from polyester fibers processed through tumbling, needle-punching, and baking, resulting in a high-density fibrous network that effectively absorbs sound and reduces reverberation. The modular nature of Tessellate allows for diverse configurations, making it adaptable to various architectural needs.

Tri-Hex Panels

Designed for modularity, the Tri-Hex panels consist of three-dimensional triangular units connected by hexagonal polyester connectors. Suspended via wire ropes, these panels create dynamic hexagonal formations that enhance both aesthetics and acoustics. The use of polyester fibers processed similarly to the Tessellate series ensures effective sound absorption and reduced reverberation. The Tri-Hex design offers flexibility in installation, allowing for creative spatial arrangements.

Waffle Baffle System

The Waffle Baffle system comprises meandering baffles connected through a waffling method and slotted into Unistrut channels for easy installation. These 9mm thick polyester panels are designed to absorb sound and reduce reverberation, contributing to improved acoustic comfort in various settings. The Waffle Baffle’s unique design adds a visual element to spaces while providing practical acoustic benefits.

Advanced Features of Polyx's Parametric Acoustic Panels

Polyx’s acoustic panels incorporate several advanced features that enhance their performance and adaptability.

Sustainable Materials

Polyx prioritizes environmental responsibility by utilizing sustainable materials in their acoustic panels. The polyester fibers used are eco-friendly, contributing to a greener future while maintaining high acoustic performance.

Modular Design

The modular nature of Polyx’s panels allows for flexible configurations, enabling designers to tailor acoustic solutions to specific spatial requirements. This adaptability ensures that the panels can be integrated seamlessly into various architectural designs.

Aesthetic Versatility

Through parametric design, Polyx’s panels offer aesthetic versatility, allowing for the creation of visually striking patterns and forms that enhance the overall design of a space. This approach ensures that acoustic solutions do not compromise on visual appeal.

Efficient Installation

Incorporating DFMA principles, Polyx’s panels are designed for efficient manufacturing and installation. Systems like the Waffle Baffle utilize Unistrut channels, simplifying the installation process and reducing time and labor costs.

The Future of Acoustic Paneling with Parametric Design

The collaboration between MOH Design and Polyx highlights how parametric design enhances acoustic paneling. Using Rhino 3D and Grasshopper Rhino, they create solutions that blend aesthetics with acoustic functionality. This approach aligns with the philosophies of designers like Zaha Hadid and Arturo Tedeschi, advocating for advanced technology in architecture. Sustainable materials and efficient manufacturing reflect their commitment to eco-friendly design. As architecture evolves, integrating parametric methods will play a key role in shaping adaptable, high-performance acoustic solutions. MOH Design and Polyx set a benchmark for future innovations, demonstrating how technology and design converge to create functional and visually striking spaces.

References

AntiCAD Polyx™: https://anticad.com/polyx/
AntiCAD Polyx™ Tesselate: https://anticad.com/tessellate/
AntiCAD Polyx™ Tri-Hex: https://anticad.com/tri-hex/
AntiCAD Polyx™ Waffe Baffle: https://anticad.com/waffle-baffle/
Polyx™ website: https://polyxwall.com/

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