An Experimental Study on the Lateral Stress of Composite Steel Wall Structure by Using Self‐Compacting Concrete

Wu, Wei; Li, Xiaozhao; Kadaei, Samireh

doi:10.1155/2022/7772556

Cited by 2 publications

(2 citation statements)

References 51 publications

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“…the water preservation layer. Future research could explore factors that originated in the social and financial aspects of green roofs [43,[92][93][94][95][96].…”

Section: Environmentalmentioning

confidence: 99%

Optimization of Energy in Sustainable Architecture and Green Roofs in Construction: A Review of Challenges and Advantages

et al. 2022

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Sustainability has been one of architecture's most significant trends over the last twenty years. e environmental consciousness of professionals has put sustainability at the heart of the architectural profession and has contributed to adopting and implementing sustainable designs on the scale of urban landscapes. A green roof or living roof, which is a sustainable solution in architecture, is a roof on the surface of which plants are grown. e roof is covered by plants, covering the waterproof layer beneath the vegetation. However, various types of plants can be used in this scheme. Understanding the influencing factors in choosing the right plant species and the impact that utilizing green roofs has on the overall energy consumption of the building can tremendously help scientists and clarify the possible future research topics in this field. Hence, this article investigates energy optimization in the construction process of a green roof in sustainable architecture and its advantages and challenges. e results of this study show that budget limitations, managerial and organizational policies, legal issues, technical and scientific infrastructure, and cultural and geographical aspects are all affecting the widespread use of green roofs currently and need to be considered in future studies.

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“…the water preservation layer. Future research could explore factors that originated in the social and financial aspects of green roofs [43,[92][93][94][95][96].…”

Section: Environmentalmentioning

confidence: 99%

Optimization of Energy in Sustainable Architecture and Green Roofs in Construction: A Review of Challenges and Advantages

et al. 2022

Self Cite

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“…Because the model concrete pile is prone to be broken and destroyed, the steel pipe is selected to replace the model pile. Meanwhile, considering the brittleness of the model pile material in the low temperature environment and the large frozen soil stiffness, etc., in order to ensure the smooth implementation of the simulation [27][28][29][30][31][32], and prevent the situation that the pile body above the soil surface is cut off before the pile body is obviously displaced in the initial stage of horizontal dynamic loading and before the pile body is obviously displaced in the frozen soil, the simulation selects the Q235 seamless steel pipe with an outer diameter of 30 mm, a wall thickness of 3 mm, and a length of 700 mm as the model pile. e elastic modulus E � 206 GPa, the similar density ratio of 0.94, the similar bending stiffness ratio of 4.3 × 107, and the similar force ratio of 6.02 × 105, among which the length of the Q235 seamless steel pipe in the embedded soil is 550 mm, and the steel pipe with the same steel sheet material is used as the bottom part.…”

Section: Source Of Simulation Data and Experimental Environment Settingsmentioning

confidence: 99%

Seismic Response and Nonlinear Mechanical Characteristics of Bridge Pile Foundation in Yushu Permafrost Area

Liu

2022

Shock and Vibration

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In order to analyze the application effect of bridge pile foundation in Yushu permafrost area, this paper uses the research methods of theoretical analysis, model testing, and numerical simulation to collect soil samples in the Yushu area, study various indicators of frozen soil, simulate different frozen soil foundations in the Yushu area, and study different seismic waves under the influence of different temperatures. The seismic response mechanism of bridge pile foundations in the Yushu permafrost region under the influence of loading mode, soil material, and single pile in different permafrost regions is analyzed, and the dynamic response and mechanical nonlinear characteristics of displacement and deformation under different seismic forces are obtained. The simulation results show that under the influence of different temperatures, different seismic wave loading methods, and different soil quality single piles, the bridge pile foundation in the Yushu permafrost area has obvious seismic response laws and obvious mechanical nonlinear characteristics. Under the influence of permafrost material, most single piles have response coefficients of between 0 and 1.

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An Experimental Study on the Lateral Stress of Composite Steel Wall Structure by Using Self‐Compacting Concrete

Cited by 2 publications

References 51 publications

Optimization of Energy in Sustainable Architecture and Green Roofs in Construction: A Review of Challenges and Advantages

Optimization of Energy in Sustainable Architecture and Green Roofs in Construction: A Review of Challenges and Advantages

Seismic Response and Nonlinear Mechanical Characteristics of Bridge Pile Foundation in Yushu Permafrost Area

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