摘要
科技进步已经成为引领时代发展重要动力源泉,3D打印技术是科技进步过程中重要的衍生技术之一,也是智能时代解放双手的核心科技。与此同时,科技进步产生的无机固废严重威胁到了生态环境的安全,其面临着堆存量巨大和无法大量资源化利用的问题。在资源逐渐匮乏的时代,利用无机固废制备无害化3D打印材料将成为其新型高附加值资源化处理具有广阔前景的技术手段之一。文章主要总结了3D打印技术的发展现状,解析了无机固废制备3D打印材料的可行性,提出了无机固废制备3D打印材料的主要研究方向和应用前景。该文可为无机固废高附加值资源化利用提供一条高效便捷的可行路径,为3D打印技术的应用提供一个新的方向建议。
Scientific and technological progress has become an important driving force to lead the development of the era.3D printing technology is one of the important derivative technologies in the process of scientific and technological progress,and is also the core technology to free hands in the intelligent era.At the same time,the inorganic solid waste produced by scientific and technological progress has seriously threatened the safety of the ecological environment,and it faces with the problem of huge stockpiles and inability to use a large number of resources.In the era of gradual shortage of resources,the preparation of harmless 3D printing materials from inorganic solid wastes will become one of the new high value-added resource treatment technologies with broad prospects.This paper mainly summarizes the current status of 3D printing technology,analyzes the feasibility of preparing 3D printing materials from inorganic solid wastes,and puts forward the main research directions and application prospects of preparing 3D printing materials from inorganic solid wastes.This paper provides an efficient and convenient feasible path for the resource utilization of inorganic solid wastes with high added value,and provides a new direction for the application of 3D printing technology.
作者
刘晔
吴丰辉
瞿广飞
刘珊
邝凌睿
金彩悦
刘欣欣
赵晨阳
程银汉
王作亮
LIU Ye;WU Fenghui;QU Guangfei;LIU Shan;KUANG Lingrui;JIN Caiyue;LIU Xinxin;ZHAO Chenyang;CHENG Yinhan;WANG Zuoliang(School of Environmental Science and Engineering,Kunming University of Science and Technology,Kunming 650500,China;National Local Joint Engineering Research Center for Waste Gas Resource Treatment in Metallurgy and Chemical Industry,Kunming 650500,China)
出处
《环境科学与技术》
CAS
CSCD
北大核心
2023年第3期207-215,共9页
Environmental Science & Technology
基金
国家重点研发计划课题:非常规湿/热生产典型副产物清洁加工生态链接技术(2018YFC1900203)
国家自然科学基金项目:铅锌尾矿重金属迁移转化微观行为及其纳微尺度高靶向稳定机制(51968033)。
关键词
3D打印
无机固废
资源化
胶凝材料
3D printing
inorganic solid waste
resource
cementitious materials