Authors :
Bindesh Kumar Jha; Nishu Sharma
Volume/Issue :
RISEM–2025
Google Scholar :
https://tinyurl.com/3xvuxf97
Scribd :
https://tinyurl.com/3h7a4eaf
DOI :
https://doi.org/10.38124/ijisrt/25jun189
Abstract :
This research reviews the development and evaluation of a steel-bamboo composite material. It is designed for
sustainable and cost-effective construction. We chose bamboo as an affordable alternative. The study evolved into a
comprehensive technical examination of bamboo’s structural compatibility with steel. Bamboo has high tensile strength and
low weight. Steel possesses exceptional compressive and tensile properties. This combination leads to a composite with
promising mechanical performance. This hybrid material focuses on addressing challenges in modern construction. It offers
strength, flexibility, and environmental benefits. This emphasis was placed on analyzing durability, corrosion resistance,
thermal behavior, and long-term viability. The study also examines economic and environmental impacts. It notes reduced
carbon emissions and resource consumption compared to traditional materials. Applications in rural and urban
infrastructure are also taken into consideration including housing, bridges, and disaster-resistant structures. While
theoretical results are promising, the paper emphasizes the need for experimental validation and performance testing under
real-world conditions. The steel-bamboo composite gives a viable path toward green construction innovation, especially in
developing countries seeking affordable and sustainable solutions. This research contributes to the growing interest in
hybrid bio-composites and supports further exploration into their large-scale implementation.
Keywords :
Steel, Bamboo, Flexibility, Scrimber, Corrosion Resistance.
This research reviews the development and evaluation of a steel-bamboo composite material. It is designed for
sustainable and cost-effective construction. We chose bamboo as an affordable alternative. The study evolved into a
comprehensive technical examination of bamboo’s structural compatibility with steel. Bamboo has high tensile strength and
low weight. Steel possesses exceptional compressive and tensile properties. This combination leads to a composite with
promising mechanical performance. This hybrid material focuses on addressing challenges in modern construction. It offers
strength, flexibility, and environmental benefits. This emphasis was placed on analyzing durability, corrosion resistance,
thermal behavior, and long-term viability. The study also examines economic and environmental impacts. It notes reduced
carbon emissions and resource consumption compared to traditional materials. Applications in rural and urban
infrastructure are also taken into consideration including housing, bridges, and disaster-resistant structures. While
theoretical results are promising, the paper emphasizes the need for experimental validation and performance testing under
real-world conditions. The steel-bamboo composite gives a viable path toward green construction innovation, especially in
developing countries seeking affordable and sustainable solutions. This research contributes to the growing interest in
hybrid bio-composites and supports further exploration into their large-scale implementation.
Keywords :
Steel, Bamboo, Flexibility, Scrimber, Corrosion Resistance.
