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Main Author: Quiroz, Nicolas Brian
Format: Recurso digital
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Published: Zenodo 2026
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Online Access:https://doi.org/10.5281/zenodo.18307335
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author Quiroz, Nicolas Brian
author_facet Quiroz, Nicolas Brian
contents <p>This record contains a conceptual preprint examining the design architecture and synergistic mechanisms of a multifunctional rubber-based composite comprising a rubber matrix with silica, nano copper, and magnetite additives. The manuscript analyzes component roles, interfacial interactions, and system-level integration that enable mechanical durability, antimicrobial functionality, thermal management support, and electromagnetic interference attenuation within a unified elastomeric material architecture.</p> <p>The work is explicitly theoretical and explanatory in nature. No experimental data, performance benchmarking, manufacturing optimizations, or new embodiments are presented. All discussion is limited to conceptual mechanisms and design logic consistent with a pending U.S. patent application filed July 18, 2024, which has entered public disclosure. The manuscript does not introduce new technical disclosures beyond the referenced patent scope.</p> <p>This preprint is intended to support scientific understanding of integrated elastomeric composite design, clarify non-obvious architectural synergy, and provide context for future experimental or industrial evaluation. It is not a manufacturing guide, performance study, or optimization report.</p>
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spellingShingle Design Architecture and Synergistic Mechanisms in a Multifunctional Rubber-Based Composite
Quiroz, Nicolas Brian
Multifunctional composites
Elastomeric materials
Rubber composites
Antimicrobial materials
Electromagnetic shielding
EMI attenuation
Thermal management materials
Composite material design
Materials architecture
<p>This record contains a conceptual preprint examining the design architecture and synergistic mechanisms of a multifunctional rubber-based composite comprising a rubber matrix with silica, nano copper, and magnetite additives. The manuscript analyzes component roles, interfacial interactions, and system-level integration that enable mechanical durability, antimicrobial functionality, thermal management support, and electromagnetic interference attenuation within a unified elastomeric material architecture.</p> <p>The work is explicitly theoretical and explanatory in nature. No experimental data, performance benchmarking, manufacturing optimizations, or new embodiments are presented. All discussion is limited to conceptual mechanisms and design logic consistent with a pending U.S. patent application filed July 18, 2024, which has entered public disclosure. The manuscript does not introduce new technical disclosures beyond the referenced patent scope.</p> <p>This preprint is intended to support scientific understanding of integrated elastomeric composite design, clarify non-obvious architectural synergy, and provide context for future experimental or industrial evaluation. It is not a manufacturing guide, performance study, or optimization report.</p>
title Design Architecture and Synergistic Mechanisms in a Multifunctional Rubber-Based Composite
topic Multifunctional composites
Elastomeric materials
Rubber composites
Antimicrobial materials
Electromagnetic shielding
EMI attenuation
Thermal management materials
Composite material design
Materials architecture
url https://doi.org/10.5281/zenodo.18307335