Fire effects on concrete materials -- 专题文献 - 开放数据服务

专题：Fire effects on concrete materials

This cluster of papers focuses on the behavior of concrete and steel structures at high temperatures, particularly in the context of fire resistance, spalling prevention, and mechanical properties. It explores the effects of elevated temperatures on concrete, including its microstructure and thermal properties, as well as the use of fiber reinforcement to enhance performance.

最新文献

Deterioration mechanism of the macroscopic properties and microstructure of concrete under low-temperature cyclic fatigue action

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Seismic behaviour and three-dimensional modeling of coal gangue concrete-filled steel tubes under cyclic lateral loads

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An interpretable machine learning-based measurement system for predicting the compressive strength of concrete at elevated temperatures

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Compressive behavior of coal gangue concrete-filled steel tube in cold region towards to sustainability design

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Study on the airflow velocity induced by stack effects and its influence on flame morphology of wall fires within a vertical channel

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Two-dimensional investigation on extension flame boundary beneath curved ceiling produced by buoyancy fire plume in utility tunnel

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Lightweight ultra-high performance concrete prepared with the waste fraction of sintered shale pottery sand: preparation, mechanical properties, and material selection method

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Proceedings of the 2025 2nd International Conference on Civil Engineering Structures and Concrete Materials (CESCM 2025)

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Experimental and molecular dynamics simulation study on the dynamic mechanical control mechanism and constitutive model of MWCNTs-modified concrete post high-temperature exposure

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Residual performance of Portland cement types-based plain and steel fibre-reinforced mortars exposed to elevated temperatures

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近5年高被引文献

Fire resistance of geopolymer concrete: A critical review

review Full Text OpenAlex 181 FWCI26.00302869

High-temperature behavior of polyvinyl alcohol fiber-reinforced metakaolin/fly ash-based geopolymer mortar

article Full Text OpenAlex 176 FWCI25.28072234

Data-driven compressive strength prediction of steel fiber reinforced concrete (SFRC) subjected to elevated temperatures using stacked machine learning algorithms

article Full Text OpenAlex 170 FWCI24.41395472

Effects of low temperatures and cryogenic freeze-thaw cycles on concrete mechanical properties: A literature review

review Full Text OpenAlex 163 FWCI23.5471871

Prediction of concrete and FRC properties at high temperature using machine and deep learning: A review of recent advances and future perspectives

review Full Text OpenAlex 151 FWCI30.88055462

Fire spalling behavior of high-strength concrete: A critical review

review Full Text OpenAlex 127 FWCI18.05765882

Strength behavior of circular concrete-filled steel tube stub columns under axial compression: A review

review Full Text OpenAlex 126 FWCI18.20212009

Enhancing the toughness of bonding interface in steel-UHPC composite structure through fiber bridging

article Full Text OpenAlex 114 FWCI23.3137962

Behaviour of alkali-activated concrete at elevated temperatures: A critical review

review Full Text OpenAlex 112 FWCI22.90478223

Experimental study on compressive behavior and failure characteristics of imitation steel fiber concrete under uniaxial load

article Full Text OpenAlex 108 FWCI22.0867543