Synergy of additive technologies, bionics and fractal approach in bridge engineering

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DOI:

https://doi.org/10.31660/2782-232X-2024-4-98-106

Abstract

Modern bridge construction demands efficient designs, technologies, and materials. Traditional methods tend towards simpler designs, whereas modern approaches enable a wider variety of structures and architectural forms. This research explores successful examples of 3D printing, bionics and fractal approaches in bridge engineering, and analyzes the potential of combining these technologies for optimal results in modern bridge construction.

Keywords:

additive technologies, bionics, fractals, bridge construction, efficient structures, fractal structures, computer engineering

About the authors:

Igor G. Ovchinnikov, Industrial University of Tyumen

Dr. Sci. (Engineering), Professor, Professor in the Basic Department of JSC "Mostostroy-11"

Igor O. Razov, Industrial University of Tyumen

Cand. Sci. (Engineering), Associate Professor, Associate Professor in the Basic Department of JSC
"Mostostroy-11"

Nurlan B. Kudaibergenov, L. N. Gumilev Eurasian National University

Dr. Sci. (Engineering), Professor, Professor in the Department of Construction

Overseas applications of bionics approach in bridge building

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How to Cite

Ovchinnikov, I.G. Synergy of additive technologies, bionics and fractal approach in bridge engineering / I.G. Ovchinnikov, I.O. Razov, N.B. Kudaibergenov. – DOI 10.31660/2782-232X-2024-4-98-106 // Architecture, construction, transport. – 2024. – № 4. – P. 98-106.

Issue

No. 4 : Architecture, Construction, Transport

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Articles

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Copyright (c) 2024 Igor G. Ovchinnikov Igor O. Razov, Nurlan B. Kudaibergenov

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This work is licensed under a Creative Commons Attribution 4.0 International License.

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