3D打印混凝土关键问题及应用展望_《混凝土与水泥制品》杂志社

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发布时间：2020-01-06 00:00:00

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3D打印混凝土关键问题及应用展望

Key Issues and Application Prospects of 3D Printing Concrete

2021年第6期

3D打印混凝土；层间性能；各向异性；纤维增强；协同打印

3D printing concrete; Interlayer property; Anisotropy; Fiber reinforcement; Concurrent printing

2021年第6期

10.19761/j.1000-4637.2021.06.008.06

张启云

中电建冀交高速公路发展有限公司，河北石家庄 050051

张启云

张启云.3D打印混凝土关键问题及应用展望[J].混凝土与水泥制品,2021(6):8-12,18.

ZHANG Q Y.Key Issues and Application Prospects of 3D Printing Concrete[J].CHINA CONCRETE AND CEMENT PRODUCTS,2021(6):8-12,18.

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摘要：对3D打印混凝土材料的流变性及可打印性、层间性能及各向异性、3D打印混凝土的纤维增韧方法及协同增韧技术等关键问题进行了总结和讨论，并对3D打印混凝土的工程应用进行了分析及展望。 Abstract: The key issues for 3D printing concrete such as the rheology and printability properties of concrete materials, the interlayer and anisotropy properties of 3D printing concrete, the fiber and concurrent reinforcement technology are summarized and discussed, and the engineering application of 3D printing concrete is analyzed and prospected.

英文名 : Key Issues and Application Prospects of 3D Printing Concrete

刊期 : 2021年第6期

关键词 : 3D打印混凝土；层间性能；各向异性；纤维增强；协同打印

Key words : 3D printing concrete; Interlayer property; Anisotropy; Fiber reinforcement; Concurrent printing

刊期 : 2021年第6期

DOI : 10.19761/j.1000-4637.2021.06.008.06

文章编号 :

基金项目 :

作者 : 张启云

单位 : 中电建冀交高速公路发展有限公司，河北石家庄 050051

张启云

张启云.3D打印混凝土关键问题及应用展望[J].混凝土与水泥制品,2021(6):8-12,18.

ZHANG Q Y.Key Issues and Application Prospects of 3D Printing Concrete[J].CHINA CONCRETE AND CEMENT PRODUCTS,2021(6):8-12,18.

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摘要

参数

结论

参考文献

引用本文

摘要：对3D打印混凝土材料的流变性及可打印性、层间性能及各向异性、3D打印混凝土的纤维增韧方法及协同增韧技术等关键问题进行了总结和讨论，并对3D打印混凝土的工程应用进行了分析及展望。

Abstract: The key issues for 3D printing concrete such as the rheology and printability properties of concrete materials, the interlayer and anisotropy properties of 3D printing concrete, the fiber and concurrent reinforcement technology are summarized and discussed, and the engineering application of 3D printing concrete is analyzed and prospected.

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[1] MA G,WANG L,JU Y.State-of-the-art of 3D printing technology of cementitious material—An emerging technique for construction[J].Science China Technological Sciences,2018,61(4):475-495.
[2] 常西栋,李维红,王乾.3D 打印混凝土材料及性能测试研究进展[J].硅酸盐通报,2019,38(8):2435-2441.
[3] 段严,秦先涛.3D打印混凝土相关性能研究进展[J].混凝土与水泥制品,2020(9):5-10.
[4] 齐甦,李庆远,崔小鹏,等.3D打印混凝土材料的研究现状与展望[J].混凝土,2021(1):36-39.
[5] LE T T,AUSTIN S A,LIM S,et al.Mix design and fresh properties for high-performance printing concrete[J].Materials and Structures,2012,45(8):1221-1232.
[6] SOLTAN D G,LI V C.A self-reinforced cementitious composite for building-scale 3D printing[J].Cement and Concrete Composites,2018,90:1-13.
[7] BONG S H,NEMATOLLAHI B,NAZARI A,et al.Method of Optimisation for Ambient Temperature Cured Sustainable Geopolymers for 3D Printing Construction Applications[J].Materials,2019,12(6):902.
[8] 朱彬荣,潘金龙,周震鑫,等.3D 打印技术应用于大尺度建筑的研究进展[J].材料导报,2018,32(23):4150-4159.
[9] RAHUL A V,SANTHANAM M,MEENA H,et al.3D printable concrete: Mixture design and test methods[J].Cement and Concrete Composites,2019,97:13-23.
[10] QIAN Y,DE SCHUTTER G.Enhancing thixotropy of fresh cement pastes with nanoclay in presence of polycarboxylate ether superplasticizer (PCE) [J].Cement and Concrete Research, 2018,111:15-22.
[11] ZHANG Y,ZHANG Y,LIU G,et al.Fresh properties of a novel 3D printing concrete ink[J].Construction and Building Materials,2018,174:263-271.
[12] KAZEMIAN A,YUAN X,COCHRAN E,et al.Cementitious materials for construction-scale 3D printing: Laboratory testing of fresh printing mixture [J].Construction and Building Materials,2017,145:639-647.
[13] KHALIL N,AOUAD G,CHEIKH K E,et al.Use of calcium sulfoaluminate cements for setting control of 3D-printing mortars[J].Construction and Building Materials,2017,157:382-391.
[14] SHAHZAD Q,WANG X,WANG W,et al.Coordinated adjustment and optimization of setting time, flowability, and mechanical strength for construction 3D printing material derived from solid waste[J].Construction and Building Materials,2020,259:119854.
[15] SONEBI M,LACHEMI M,HOSSAIN K M A.Optimisation of rheological parameters and mechanical properties of superplasticised cement grouts containing metakaolin and viscosity modifying admixture[J].Construction and Building Materials,2013,38:126-138.
[16] SUIKER A S J.Mechanical performance of wall structures in 3D printing processes: Theory, design tools and experiments [J].International Journal of Mechanical Sciences,2018,137:145-170.
[17] WOLFS R J M,BOS F P,SALET T A M.Early age mechanical behaviour of 3D printed concrete: Numerical modelling and experimental testing[J].Cement and Concrete Research,2018,106:103-116.
[18] MA G,LI Z,WANG L,et al.Mechanical anisotropy of aligned fiber reinforced composite for extrusion-based 3D printing [J].Construction and Building Materials,2019,202:770-783.
[19] SANJAYAN J G,NEMATOLLAHI B,XIA M,et al.Effect of surface moisture on inter-layer strength of 3D printed concrete [J].Construction and Building Materials,2018,172:468-475.
[20] PANDA B,UNLUER C,TAN M J.Investigation of the rheology and strength of geopolymer mixtures for extrusion-based 3D printing[J].Cement and Concrete Composites,2018,94: 307-314.
[21] AUSTIN S,ROBINS P,PAN Y.Tensile bond testing of concrete repairs[J].Materials and Structures,1995,28(5):249.
[22] PANDA B,PAUL S C,MOHAMED N A N,et al.Measurement of tensile bond strength of 3D printed geopolymer mortar [J].Measurement,2018,113:108-116.
[23] NERELLA V N,HEMPEL S,MECHTCHERINE V.Effects of layer-interface properties on mechanical performance of concrete elements produced by extrusion-based 3D-printing[J].Construction and Building Materials,2019,205:586-601.
[24] WOLFS R J M,BOS F P,SALET T A M.Hardened properties of 3D printed concrete: The influence of process parameters on interlayer adhesion [J].Cement and Concrete Research,2019,119:132-140.
[25] HOSSEINI E,ZAKERTABRIZI M,KORAYEM A H,et al.A novel method to enhance the interlayer bonding of 3D printing concrete: An experimental and computational investigation[J].Cement and Concrete Composites,2019,99:112-119.
[26] WANG Y,HU X.Benefits of Short Kevlar Fiber Reinforcement at the Interface for Repair of Concrete-Like Materials[J].Journal of Materials in Civil Engineering,2016,28(9):04016087.
[27] MA G,SALMAN N M,WANG L,et al.A novel additive mortar leveraging internal curing for enhancing interlayer bonding of cementitious composite for 3D printing[J].Construction and Building Materials,2020,244:118305.
[28] TING G H A,TAY Y W D,QIAN Y,et al.Utilization of recycled glass for 3D concrete printing: rheological and mechanical properties[J].Journal of Material Cycles and Waste Management,2019,21(4):994-1003.
[29] FENG P,MENG X,CHEN J F,et al.Mechanical properties of structures 3D printed with cementitious powders[J].Construction and Building Materials,2015,93:486-497.
[30] PAUL S C T Y W D,PANDA B.Fresh and hardened properties of 3D printable cementitious materials for building and construction[J].Archives of civil and mechanical engineering,2018,18:311-319.
[31] AL-QUTAIFI S,NAZARI A,BAGHERI A.Mechanical properties of layered geopolymer structures applicable in concrete 3D-printing[J].Construction and Building Materials,2018,176:690-699.
[32] HAMBACH M,M?魻LLER H,NEUMANN T,et al.Portland cement paste with aligned carbon fibers exhibiting exceptionally high flexural strength(>100 MPa)[J].Cement and Concrete Research,2016,89:80-86.
[33] PANDA B,PAUL S C,TAN M J.Anisotropic mechanical performance of 3D printed fiber reinforced sustainable construction material [J].Materials Letters,2017,209: 146-149.
[34] ZHU B,PAN J,NEMATOLLAHI B,et al.Development of 3D printable engineered cementitious composites with ultra-high tensile ductility for digital construction [J].Materials and Design,2019,181:108088.
[35] ARUNOTHAYAN A R,NEMATOLLAHI B, RANADE R,et al.Development of 3D-printable ultra-high performance fiber-reinforced concrete for digital construction[J] Construction and Building Materials,2020,257:119546.
[36] MECHTCHERINE V,GRAFE J,NERELLA V N,et al.3D-printed steel reinforcement for digital concrete construction -Manufacture, mechanical properties and bond behaviour[J].Construction and Building Materials,2018,179:125-137.
[37] LI Z,WANG L,MA G.Mechanical improvement of continuous steel microcable reinforced geopolymer composites for 3D printing subjected to different loading conditions[J].Composites Part B: Engineering,2020,187:107796.
[38] SALET T A M,AHMED Z Y,BOS F P,et al.Design of a 3Dprinted concrete bridge by testing[J].Virtual and Physical Prototyping,2018,13(3):222-236.
[39] PERROT A,JACQUET Y,RANGEARD D,et al.Nailing of Layers: A Promising Way to Reinforce Concrete 3D Printing Structures[J].Materials,2020,13(7):1518.
[40] MARCHMENT T,SANJAYAN J.Mesh reinforcing method for 3D Concrete Printing [J].Automation in Construction,2020,109:102992.
[41] CLASSEN M,UNGERMANN J,SHARMA R.Additive Manufacturing of Reinforced Concrete—Development of a 3D Printing Technology for Cementitious Composites with Metallic Reinforcement[J].Applied Sciences,2020,10(11):3791.
[42] 中国3D打印网.北京华商腾达用45天建成400平的3D打印别墅[EB/OL].(2016-06-16)[2020-11-01].https://www.3ddayin.net/news/guonadongtai/22100.html.
[43] 中国混凝土网.运用3D打印框架建造的复杂混凝土柱[EB/OL].(2017-08-19)[2020-07-19].https://www.sohu.com/a/163434579_658567.
[44] 中国三维打印网.荷兰开放全球首座3D打印的混凝土自行车桥[EB/OL].(2017-10-19)[2020-07-19].http://www.3weidayin.com/?mod=pad&act=view&id=1231.
[45] 人民网.装配式混凝土3D打印赵州桥在河北工业大学落成[EB/OL].(2019-10-15)[2020-07-19].http://edu.people.com.cn/n1/2019/1015/c367001-31401405.html.

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