A review on study of Mechanical and Durability properties of modified Geopolymer concrete using Nano materials
ナノ材料を用いた改質ジオポリマーコンクリートの力学特性と耐久性に関するレビュー (AI 翻訳)
Tabassum L Tabassum L, S. Sanjana, Mahadas Pragna Mahadas Pragna, Habeebulla Khan Habeebulla Khan, Mohammed Haseebulla M Mohammed Haseebulla M
🤖 gxceed AI 要約
日本語
本レビューは、ジオポリマーコンクリートの力学特性と耐久性を、ナノ材料による改質の観点からまとめたもの。セメント製造に代わる低炭素材料として、産業副産物を活用しCO2排出削減に貢献する。ナノ材料添加による強度向上や耐久性改善の可能性を示唆する一方、実用化にはさらなる研究が必要と結論付けている。
English
This review examines the mechanical and durability properties of geopolymer concrete modified with nano-materials. Geopolymer concrete is a low-carbon alternative to Portland cement, utilizing industrial byproducts to reduce CO2 emissions. The study suggests that nano-additives can enhance strength and durability, but further research is needed for commercial application.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本では建設業界のCO2排出削減が急務であり、ジオポリマーコンクリートはセメント代替として有望。本レビューは材料設計の基礎データを提供し、国内のグリーン建材開発や規制対応に貢献する可能性がある。
In the global GX context
Geopolymer concrete is gaining global attention as a low-carbon construction material. This review summarizes the impact of nano-materials on its performance, relevant for ISSB-aligned disclosure of embodied carbon and for meeting net-zero targets in the built environment.
👥 読者別の含意
🔬研究者:Provides a consolidated overview of nano-modified geopolymer concrete, identifying research gaps for further material optimization.
🏢実務担当者:Offers insights into alternative low-carbon concrete formulations that could reduce Scope 3 emissions in construction supply chains.
🏛政策担当者:Highlights the potential of geopolymer concrete as a decarbonization lever, informing building codes and green procurement policies.
📄 Abstract(原文)
Concrete has long been recognized as the cornerstone of modern infrastructure, playing a critical role in the development of buildings, transportation systems, water supply structures, and other essential facilities. Its widespread use can be attributed to its versatility, availability of raw materials, ease of construction, and ability to withstand high compressive loads. However, the environmental impact associated with concrete production, particularly due to cement manufacturing, has become a major concern in recent years. The process of cement production involves the calcination of limestone at high temperatures, which releases a significant amount of carbon dioxide into the atmosphere. In addition, the process requires substantial energy consumption, contributing further to environmental degradation. In response to these challenges, researchers and engineers have been actively exploring alternative materials that can reduce the environmental impact of construction activities. Geopolymer concrete has emerged as a promising solution due to its ability to utilize industrial by-products such as fly ash, GGBS, and metakaolin. These materials are rich in silica and alumina, which are essential for the formation of geopolymer binders. The use of these materials not only reduces the demand for cement but also helps in the effective disposal of industrial waste, thereby addressing two major environmental concerns simultaneously.
🔗 Provenance — このレコードを発見したソース
- semanticscholar https://doi.org/10.55041/ijcope.v2i5.254first seen 2026-06-29 07:35:26
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