ArticleOpen Access http://dx.doi.org/10.26855/ea.2026.03.002
Application Advantages of Aluminum Formwork and Climbing Scaffold Combined Technology in Residential Buildings
Fang Zhang
China First Highway Engineering Co., Ltd., Beijing 100024, China.
*Corresponding author: Fang Zhang
Published: January 15,2026
Abstract
The aluminum formwork and climbing scaffolding combination technology, as an innovative and efficient construction solution, is widely used in high-rise residential buildings. This paper analyzes the core components of this technology, including the organic combination of the aluminum alloy formwork system and the attached lifting scaffolding system. Based on high-strength materials and standardized design, the aluminum alloy formwork features high precision, high rigidity, and corrosion resistance, effectively improving the accuracy and quality of structural construction while reducing costs. The attached lifting scaffolding provides comprehensive protection and synchronous lifting support for high-altitude operations, ensuring construction safety and optimizing the construction process. By analyzing the advantages of the aluminum formwork and climbing scaffolding combination technology, this paper explores its contributions to improving construction efficiency, ensuring construction quality, and optimizing construction management. Finally, considering current technological development trends, this paper proposes future technology upgrade and promotion strategies, providing a reference for technological innovation in the construction industry.
Keywords
Aluminum alloy formwork; Attached climbing scaffold; Combined construction technology; Residential building
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How to cite this paper
Application Advantages of Aluminum Formwork and Climbing Scaffold Combined Technology in Residential Buildings
How to cite this paper: Fang Zhang. (2026). Application Advantages of Aluminum Formwork and Climbing Scaffold Combined Technology in Residential Buildings. Engineering Advances, 6(1), 7-11.
DOI: http://dx.doi.org/10.26855/ea.2026.03.002