世界建筑Issue(6):43-48,6.
3D打印混凝土结构控碳、控形、控性关键技术研究与应用
Research and Application of Key Technologies for Carbon,Shape,and Performance Control in 3D-Printed Concrete Structures
摘要
Abstract
As the global construction industry faces an urgent need for low-carbon transformation,the integration of recycled materials from solid waste with 3D printing technology has emerged as an innovative pathway to promote intelligent construction and circular economy development.This study focuses on 3D-printed concrete structures made from recycled solid waste materials and proposes a theory of shape-force coupling design.It emphasises the objectives of carbon,shape,and performance control.The discussion encompasses three key aspects:the collaborative design for low carbon emissions and performance optimisation using recycled materials;topology optimisation for regulating shape-force interactions;and innovations in structural systems through 3D printing techniques.By addressing design goals that balance low emissions,high load-bearing capacity,and lightweight characteristics,this research aims to provide theoretical support and technical demonstrations for the industrial promotion of 3D-printed concrete structures.关键词
固废循环材料/3D打印/混凝土结构/控碳/控形/控性/智能建造Key words
recycled materials from solid waste/3D printing/concrete structures/carbon control/shape control/performance control/intelligent construction引用本文复制引用
傅嘉言,王里,马国伟,袁烽..3D打印混凝土结构控碳、控形、控性关键技术研究与应用[J].世界建筑,2025,(6):43-48,6.基金项目
国家重点研发计划 项目编号:2023YFC3806900 同济大学建筑设计研究院(集团)有限公司自主课题 项目编号:2023J-JB04 (集团)
