Deepening Design and Optimization Strategies for High Performance Prefabricated Building Structural Systems
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DOI: 10.25236/icceme.2024.045
Author(s)
Guanhua Ma, Qinghua Hou
Corresponding Author
Guanhua Ma
Abstract
With the diversification and complexity of building demands, the performance requirements for prefabricated building structural systems are also increasing. This article aims to explore in depth the deepening design and optimization strategies of high-performance prefabricated building structural systems, in response to the urgent needs of modern buildings for high performance, high efficiency, and environmental protection and energy conservation. The article first outlines the current development status of prefabricated building structural systems and analyzes the background and core issues of high-performance requirements. On this basis, this article focuses on exploring the key elements of deepening design and optimization strategies, including the rationality of structural design, the scientificity of material selection, and the optimization of construction technology. By comprehensively considering these factors, the overall performance of prefabricated building structural systems can be significantly improved. In addition, this article also looks forward to the development trend of high-performance prefabricated building structural systems and points out future research directions.
Keywords
High-performance assembled building structure system; Deepen the design; Optimization strategy; Case analysis; Practical application