W.R. Leal da Silva, M. Kaasgaard. Green concrete for sustainable 3D Concrete Printing. Concrete International, 4: 34-40, 2022. Link
G. Ma, R. Buswell. W.R. Leal da Silva, L. Wang, J. Xu, S.Z. Jones. Technology readiness: A global snapshot of 3D concrete printing and the frontiers for development. Cement and Concrete Research, 156(-): 106774, 2022. Link
F.P. Bos, C. Menna, M. Pradena, E.Kreiger, W.R. Leal da Silva, A.U. Rehman, D. Weger, R.J.M. Wolfs, Y.Zhang, L. Ferrara, V. Mechtcherine. The realities of additively manufactured concrete structures in practice. Cement and Concrete Research, 156(-): 106746, 2022. Link
A. L. van Overmeir, S.C. Figueiredo, B. Savija, F.P.Bos E. Schlangen. Design and analyses of printable strain hardening cementitious composites with optimized particle size distribution. Construction and Building Materials, 324(-): 126411, 2022. Link
V. Nguyen-Van, H. Nguyen-Xuan, B. Panda, P. Tran. 3D concrete printing modelling of thin-walled structures. Structures, 39(-): 496-511, 2022. Link
N. Freund, D. Lowke. Interlayer Reinforcement in Shotcrete-3D-Printing : The Effect of Accelerator Dosage on the Resulting Bond Behavior of Integrated Reinforcement Bars.. Open Conference Proceedings, Vol. 1: 83-95, 2022. Link
T. Wangler, R. Pileggi, S.Gurel, R.J. Flatt. A chemical process engineering look at digital concrete processes: critical step design, inline mixing, and scaleup. Cement and Concrete Research, 155(-): 106782, 2022. Link
Z. Ahmed, R. Wolfs, F.P. Bos, T.A.M. Salet. A Framework for Large-Scale Structural Applications of 3D Printed Concrete: the Case of a 29 m Bridge in the Netherlands.. Open Conference Proceedings, Vol. 1: 5–19, 2022. Link
P.Carneau, R. Mesnil, O. Baverel, N. Roussel. Layer pressing in concrete extrusion-based 3D-printing: Experiments and analysis. Cement and Concrete Research, 155(-): 106741, 2022. Link
Y. Chen, Z. Chang, S. He, O.Copuroglu, B.Savija, E.Schlangen. Effect of curing methods during a long time gap between two printing sessions on the interlayer bonding of 3D printed cementitious materials. Construction and Building Materials, 332(-): 127394, 2022. Link
S. Bhattacherjee, M.Santhanam. Investigation on the effect of alkali-free aluminium sulfate based accelerator on the fresh properties of 3D printable concrete. Cement and Concrete Composites, 130(-): 104521, 2022. Link
P. Bedarf, A. Szabo, M. Zanini, A. Heusi, B. Dillenburger. Robotic 3d printing of mineral foam for a lightweight composite concrete slab. Proceedings of the 27th International Conference of the Association for Computer- Aided Architectural Design Research in Asia (CAADRIA), Vol. 2: 61-70, 2022. Link
N. Ashrafi, S. Nazarian, N. Meisel, J.P. Duarte. A grammar-based algorithm for toolpath generation: Compensating for material deformation in the additive manufacturing of concrete. Additive Manufacturing, 55(-): 102803, 2022. Link
A. Das, Y. Song, S. Mantellato, T. Wangler, D. A.Lange, R.J. Flatt. Effect of processing on the air void system of 3D printed concrete. Cement and Concrete Research, 156(-): 106789, 2022. Link
H. Christen, G. van Zijl, W. Villiers. The incorporation of recycled brick aggregate in 3D printed concrete. Cleaner Materials, 4(-): 100090, 2022. Link
R. Moini, J.O lek, P.D. Zavattieri, J.P. Youngblood. Early-age buildability-rheological properties relationship in additively manufactured cement paste hollow cylinders. Cement and Concrete Composites, 131(-): 104538, 2022. Link
J.Liu, S.Li, K.Fox, and P.Tran. 3D concrete printing of bioinspired Bouligand structure: A study on impact resistance. 3D concrete printing of bioinspired Bouligand structure: A study on impact resistance. Additive Manufacturing, 50(-): 102544, 2022. Link
J.Liu, S.Li, C.Gunasekara, K.Fox, and P.Tran. 3D-printed concrete with recycled glass: Effect of glass gradation on flexural strength and microstructure. 3D-printed concrete with recycled glass: Effect of glass gradation on flexural strength and microstructure. Construction and Building Materials, 314(Part B): 125561, 2022. Link
D. Jiao, C. Shi, and G. De Schutter. Magneto-rheology control in 3D concrete printing: A rheological attempt. Materials Letters, 309(-): 131374, 2022. Link
J. Dobrzanski, R. Buswell, S. Cavalaro, P. Kinnell, W. Wang, J. Xu, and J. Kolawole. Milling a cement-based 3D printable mortar in its green state using a ball-nosed cutter.. Cement and Concrete Composites, 125(-): 104266, 2022. Link
Y. Tao, A.V. Rahul, K. Lesagea, K.V. Tittelboom, Y. Yuan, and G. De Schutter. Mechanical and microstructural properties of 3D printable concrete in the context of the twin-pipe pumping strategy. Cement and Concrete Composites, 125(-): 104324, 2022. Link
A.V. Rahul, M.K. Mohan, G. De Schutter, and K.V. Tittelboom. 3D printable concrete with natural and recycled coarse aggregates: Rheological, mechanical and shrinkage behaviour. Cement and Concrete Composites, 125(-): 104311, 2022. Link
M. van den Heever, F. Bester, J. Kruger, and G. van Zijl. Numerical modelling strategies for reinforced 3D concrete printed elements. Additive Manufacturing, 50(-): 102569, 2022. Link
Y. Tao, K. Lesage, K.V. Tittelboom, Y. Yuan, and G. De Schutter. Influence of substrate surface roughness and moisture content on tensile adhesion performance of 3D printable concrete. Cement and Concrete Composites, 126(-): 2022, 104350. Link
M. van den Heever, A. Plessis, J. Kruger, and G. van Zijl. Evaluating the effects of porosity on the mechanical properties of extrusion-based 3D printed concrete. Cement and Concrete Research, 153(-): 106695, 2022. Link
Y. Xu, Q. Yuanm Z. Li, C. Shi, Q. Wu, and Y. Huan. Correlation of interlayer properties and rheological behaviors of 3DPC with various printing time intervals. Additive Manufacturing, 47(-): 102327, 2021. Link
A.U. Rehman, J.-H. Kim. 3D Concrete Printing: A Systematic Review of Rheology, Mix Designs, Mechanical, Microstructural, and Durability Characteristics. Materials, 14(-): 3800, 2021. Link
L. Prasittisopin, T. Sakdanaraseth, V. Horayangkura. Design and construction method of a 3D concrete printing self-supporting curvilinear pavilion. Journal of Architectural Engineering, 27(3): XX-XX, 2021. Link
T. Ooms, G. Vantyghem, R. Van Coile, W. De Corte. A parametric modelling strategy for the numerical simulation of 3D concrete printing with complex geometries. Additive Manufacturing, 38(-): 101743, 2021. Link
G. Vantyghem, T. Ooms, W. De Corte. VoxelPrint: A Grasshopper plug-in for voxel-based numerical simulation of concrete printing. Automation in Construction, 122(-): 103469, 2021. Link
R. Napolitano, D. Forni, C.Menna, D. Asprone, and E. Cadoni. Dynamic characterization of the layer-interface properties of 3D-printed concrete elements. Case Studies in Construction Materials, 15(-): e0078, 2021. Link
S.Hou, J. Xiao, Z. Duan, and G. Ma. Fresh properties of 3D printed mortar with recycled powder. Construction and Building Materials, 309(-): 125186, 2021. Link
J. Spangenberg, W.R. Leal da Silva, R. Comminal, M.T. Mollah, T.J. Andersen, and H. Stang. Numerical Simulation of Multi-Layer 3D Concrete Printing. RILEM Technical Letters, 6(-): 119-123, 2021. Link
S. Yu, M. Xia, J. Sanjayan, L. Yang, J. Xiao, and H. Du. Microstructural characterization of 3D printed concrete. Journal of Building Engineering, 44(-): 2021, 102948. Link
L. Wang, G. Ma, T. Liu, R. Buswell, and Z. Li. Interlayer reinforcement of 3D printed concrete by the in-process deposition of U-nails. Cement and Concrete Research, 148(-): 106535, 2021. Link
T. Marchment, J. Sanjayan. Bond properties of reinforcing bar penetrations in 3D concrete printing. Automation in Construction, 120(-): 103394, 2021. Link
R.J.M. Wolfs, T.A.M. Salet, and N.Roussel. Filament geometry control in extrusion-based additive manufacturing of concrete: The good, the bad and the ugly. Cement and Concrete Research, 150(-): 106615, 2021. Link
S. Fataei, E. Secrieru, V. Mechtcherine, and N. Roussel. A first-order physical model for the prediction of shear-induced particle migration and lubricating layer formation during concrete pumping. Cement and Concrete Research, 147: 106530, 2021. Link
Y. Xu, Q. Yuan, Z. Li, C. Shi, Q. Wu, and Y. Huang. Correlation of interlayer properties and rheological behaviors of 3DPC with various printing time intervals. Additive Manufacturing, 47(-): 102327, 2021. Link
L. He, J.Z.M. Tan, W.T. Chow, H. Li, and J. Pan. Design of novel nozzles for higher interlayer strength of 3D printed cement paste. Additive Manufacturing, 48(Part B): 102452, 2021. Link
K. Cuevas, M. Chougan, F. Martin, S.H. Ghaffar, D. Stephan, P. Sikora. 3D printable lightweight cementitious composites with incorporated waste glass aggregates and expanded microspheres – Rheological, thermal and mechanical properties. Journal of Building Engineering, 44(-): 102718, 2021. Link
R. Jayathilakage, P. Rajeev, J. Sanjayan. Extrusion rheometer for 3D concrete printing. Cement and Concrete Composites, 121(-): 104075, 2021. Link
I. Mai, L. Brohmann, N. Freund, S. Gantner, H. Kloft, D. Lowke, N. Hack. Large Particle 3D Concrete Printing—A Green and Viable Solution. Materials, 14(20): 6125, 2021. Link
P. Bedarf, A. Dutto, M. Zanini, B.Dillenburger. Foam 3D printing for construction: A review of applications, materials, and processes. Automation in Construction, 130(-): 103861, 2021. Link
S. Bhattacherjee, A.S. Basavaraj, A.V. Rahul, M. Santhanam, R. Gettu, B. Panda, E. Schlangen, Y. Chen, O. Copuroglu, G. Ma, L. Wang, M.A.B. Beigh, V. Mechtcherine. Sustainable materials for 3D concrete printing. Cement and Concrete Composites, 122(-): 104156, 2021. Link
J. Xiao, G. Ji, Y. Zhang, G. Ma, V. Mechtcherine, J. Pan, L. Wang, T. Ding, Z. Duan, S. Du. Large-scale 3D printing concrete technology: Current status and future opportunities. Cement and Concrete Composites, 122(-): 104115, . Link
K. Vallurupalli, N. Farzadni, K.H. Khayat. Effect of flow behavior and process-induced variations on shape stability of 3D printed elements – A review. Cement and Concrete Composites, 118(-): 103952, 2021. Link
Y. Tao, A.V. Rahul, K. Lesage, Y. Yuan. K. Van Tittelboom, G. De Schutter. Stiffening control of cement-based materials using accelerators in inline mixing processes: Possibilities and challenges. Cement and Concrete Composites, 119(-): 103972, 2021. Link
F.P. Bos, P.J. Kruger, S.S. Lucas, G.P.A.G. van Zijl. Juxtaposing fresh material characterisation methods for buildability assessment of 3D printable cementitious mortars. Cement and Concrete Composites, 120(-): 104024, 2021. Link
G. Bai, L. Wang, G. Ma, J. Sanjayan, M. Bai. 3D printing eco-friendly concrete containing under-utilised and waste solids as aggregates. Cement and Concrete Composites, 120(-): 104037, 2021. Link
B. Zhu, B. Nematollahi, J. Pan, Y. Zhang, Z. Zhou, Y. Zhang. 3D concrete printing of permanent formwork for concrete column construction. Cement and Concrete Composites, 121(-): 104039, 2021. Link
N. Ducoulombier, R. Mesnil, P. Carneau, L. Demont, H. Bessaies-Bey, J-F. Caron, N. Roussel. The Slugs-test for extrusion-based additive manufacturing: Protocol, analysis and practical limits. Cement and Concrete Composites, 121(-): 104074, 2021. Link
. Technologies for improving buildability in 3D concrete printing. Cement and Concrete Composites, 122(-): 104144, 2021. Link
C. Zhang, V.N. Nerella, A. Krishna, S. Wang, Y. Zhang, V. Mechtcherine, N. Banthia. Mix design concepts for 3D printable concrete: A review. Cemenr and Concrete Composites, 122(-): 104155, 2021. Link
C. Liu, X. Wang, Y. Chen, C. Zhang, L. Ma, Z. Deng, C. Chen, Y. Zhang, J. Pan, N. Banthia. Influence of hydroxypropyl methylcellulose and silica fume on stability, rheological properties, and printability of 3D printing foam concrete. Cement and Concrete Composites, 122(-): 104158, 2021. Link
A. Perrot, A.Pierre, V.N. Nerella, R.J.M. Wolfs, E. Keita, S.A.O. Nair, N. Neithalath, N.Roussel, V.Mechtcherine. From analytical methods to numerical simulations: A process engineering toolbox for 3D concrete printing. Cement and Concrete Composites, 122(-): 104164, 2021. Link
D. Lowke, A.Vandenberg, A. Pierre, A. Thomas, H. Kloft, N. Hack. Injection 3D concrete printing in a carrier liquid – Underlying physics and applications to lightweight space frame structures. Cement and Concrete Composites, In press(-): 104169, 2021. Link
U. Pott, D. Stephan. Penetration test as a fast method to determine yield stress and structural build-up for 3D printing of cementitious materials. Cement and Concrete Composites, 121(-): 104066, 2021. Link
S. Ghourchian, M. Butler, M. Kruger. V. Mechtcherine. Modelling the development of capillary pressure in freshly 3D-printed concrete elements. Cement and Concrete Research, 145(-): 106457, 2021. Link
J. Chung, G. Lee, J-H. Kim. Framework for technical specifications of 3D concrete printers. Automation in Construction, 127(-): 103732, 2021. Link
Y. Weng, M. Li, D. Zhang, M.J. Tan, S. Qian. Investigation of interlayer adhesion of 3D printable cementitious material from the aspect of printing process. Cement and Concrete Research, 143(-): , 2021. Link
T. Ding, J. Xiao, S. Zou, J. Yu. Flexural properties of 3D printed fibre-reinforced concrete with recycled sand. Construction and Building Materials, 288(-): 123077, 2021. Link
A.P. Rubin, J.A. Hasse, W.L. Repette. The evaluation of rheological parameters of 3D printable concretes and the effect of accelerating admixture. Construction and Building Materials, 276(-): 122221, 2021. Link
B. Zhu, J. Pan, Z. Zhou, J. Cai. Mechanical properties of engineered cementitious composites beams fabricated by extrusion-based 3D printing. Engineering Structures, 238(-): 112201, 2021. Link
L. Wang, Y. Liu, Y. Yang, Y.Li, M. Bai. Bonding performance of 3D printing concrete with self-locking interfaces exposed to compression-shear and compression-splitting stresses. Additive Manufacturing, 42(-): 101992, 2021. Link
W. Lao, M. Li, T. Tjahjowidodo. Variable-geometry nozzle for surface quality enhancement in 3D concrete printing. Additive Manufacturing, 37(-): 101638, 2021. Link
L.G. Li, B.F. Xiao, Z.Q. Fang, Z. Xiong, S.H. Chu, A.K.H. Kwan. Feasibility of glass/basalt fiber reinforced seawater coral sand mortar for 3D printing. Additive Manufacturing, 37(-): 101684, 2021. Link
T. Ding, J. Xiao, S. Zou, J. Yu. Flexural properties of 3D printed fibre-reinforced concrete with recycled sand. Construction and Building Materials, 288(-): 123077, 2021. Link
H. Marais, H. Christen, S. Cho, W. De Villiers, G. van Zijl. Computational assessment of thermal performance of 3D printed concrete wall structures with cavities. Journal of Building Engineering, 41(-): 102431, 2021. Link
S. Cho, J. Kruger, A. van Rooyen, G. van Zijl. Rheology and application of buoyant foam concrete for digital fabrication. Composites Part B: Engineering, 215(-): 108800, 2021. Link
B. Zahabizadeh, J. Pereira, C. Goncalves, E.N.B. Pereira, V.M.C.F. Cunha. Influence of the printing direction and age on the mechanical properties of 3D printed concrete. Materials and Structures, 54(-): XX-XX, 2021. Link
V. Mechtcherine, R. Buswell, H. Kloft, F.P. Bos, N. Hack, R. Wolfs, J. Sanjayan, B. Nematollahi, E. Ivaniuk, T. Neef. Integrating reinforcement in digital fabrication with concrete: A review and classification framework. Cement and Concrete Composites, 119(-): 103964, 2021. Link
S. Pessoa, A.S. Guimaraes, S.S. Lucas, N. Simoes,. 3D printing in the construction industry – A systematic review of the thermal performance in buildings. Renewable and Sustainable Energy Reviews, 141(-): 110794, 2021. Link
M. Chougan, S.H. Ghaffar, P. Sikora, S-Y. Chung, T. Rucinska, D. Stephan, A. Albar, M.R. Swash. Investigation of additive incorporation on rheological, microstructural and mechanical properties of 3D printable alkali-activated materials. Materials and Design, 202(-): 109574, 2021. Link
B. Panda, S.C. Paul, M.J. Tan. Anisotropic mechanical performance of 3D printed fiber reinforced sustainable construction material. Material Letters, 209(-): 146-149, 2021. Link
N. Ducoulombier, L. Demont, C. Chateau, M. Bornert, J-F. Caron. Additive Manufacturing of Anisotropic Concrete: a Flow-Based Pultrusion of Continuous Fibers in a Cementitious Matrix. Procedia Manufacturing, 47(-): 1070-1077, 2021. Link
A.R. Arunothayan, B. Nematollahi, R. Ranade, S.H. Bong, J.G. Sanjayan, K.H. Khayat. Fiber orientation effects on ultra-high performance concrete formed by 3D printing. Cement and Concrete Research, 143(-): 106384, 2021. Link
L. Demont, N. Ducoulombier, R. Mesnil, J-F. Caron. Flow-based pultrusion of continuous fibers for cement-based composite material and additive manufacturing: rheological and technological requirements. Composite Structures, 262(-): 113564, 2021. Link
Y. Zhang, Y. Zhang, L. Yang, G. Liu, Y. Chen, S. Yu, H. Du. Hardened properties and durability of large-scale 3D printed cement-based materials. Materials and Structures, 54(-): XX-XX, 2021. Link
Y. Weng, M. Li, T.N. Wong, M.J. Tan. Synchronized concrete and bonding agent deposition system for interlayer bond strength enhancement in 3D concrete printing. Automation in Construction, 123(-): 103546, 2021. Link
M.K. Mohan, A.V. Rahul, G. De Schutter, K.V. Tittelboom,. Early age hydration, rheology and pumping characteristics of CSA cement-based 3D printable concrete. Construction and Building Materials, 275(-): 122136, 2021. Link
K. Vallurupalli, N. Farzadnia, K.H. Khayat,. Effect of flow behavior and process-induced variations on shape stability of 3D printed elements – A review. Cement and Concrete Composites, 118(-): 103952, 2021. Link
S.K. Baduge, S. Navaratnam, Y. Abu-Zidan, T. McCormack, K. Nguyen, P. Mendis, G. Zhang, L. Aye,. Improving performance of additive manufactured (3D printed) concrete: A review on material mix design, processing, interlayer bonding, and reinforcing methods. Structures, 29(-): 1597-1609, 2021. Link
V. Nguyen-Van, B. Panda, G. Zhang, H. Nguyen-Xuan, P. Tran,. Digital design computing and modelling for 3-D concrete printing. Automation in Construction, 123(-): 103529, 2021. Link
A. Anton, L. Reiter, T. Wangler, V. Frangez, R.J. Flatt, B. Dillenburger. A 3D concrete printing prefabrication platform for bespoke columns. Automation in Construction, 122(-): 103467, 2021. Link
A. du Plessis, A.J Babafemi, S.C. Paul, B. Panda, J.P. Tran, C. Broeckhoven,. Biomimicry for 3D concrete printing: A review and perspective. Additive Manufacturing, 38(-): 101823, 2021. Link
J. Kruger, A. du Plessis, G. van Zijl. An investigation into the porosity of extrusion-based 3D printed concrete. Additive Manufacturing, 37(-): 101740, 2021. Link
S. Muthukrishnan, S. Ramakrishnan, J. Sanjayan. Effect of alkali reactions on the rheology of one-part 3D printable geopolymer concrete. Cement and Concrete Composites, 116(-): 103899, 2021. Link
F. Bester, M. van den Heever, J. Kruger, G. van Zijl. Reinforcing digitally fabricated concrete: A systems approach review. Additive Manufacturing, 37(-): 101737, 2021. Link
J. Kruger, S. Zeranka, G. van Zijl. A rheology-based quasi-static shape retention model for digitally fabricated concrete. Construction and Building Materials, 254(-): 119241, 2020. Link
M. Ekenel, M. Sanchez, A. Kazemian, B. Khoshnevis. Building Code Compliance of 3D Printed Concrete Walls. STRUCTURE Magazine, (-): XX-XX, 2020. Link
J. Kruger, G. van Zijl. A compendious review on lack-of-fusion in digital concrete fabrication. Additive Manufacturing, In Press (-): 101654, 2020. Link
A. Cicione, K. Mazolwana, J. Kruger, R. Walls, Z. Sander, G. van Zijl. Effect of transverse and longitudinal confinement on the interlayer bond in 3D printed concrete at elevated temperatures: an experimental study. In: Proceedings of the 11th international conference on structures in fire (SiF2020), Brisbane, Australia, The University of Queensland: XX-XX, 2020. Link
O. Davtalab, A. Kazemian, X. Yuan, B. Khoshnevis. Automated inspection in robotic additive manufacturing using deep learning for layer deformation detection. Journal of Intelligent Manufacturing, (-): 1-14, 2020. Link
H.T. Afarani, W. Carroll, E.J. Garboczi, J.J. Biernacki. Designing 3D printable cementitious materials with gel-forming polymers. Construction and Building Materials, 268(-): 121709, 2021. Link
Y. Jacquet, A. Perrot, V. Picandet. Assessment of asymmetrical rheological behavior of cementitious material for 3D printing application. Cement and Concrete Research, 140(-): 106305, 2021. Link
M.K. Mohan, A.V. Rahul, K.V. Tittelboom, G. De Schutter. Rheological and pumping behaviour of 3D printable cementitious materials with varying aggregate content. Cement and Concrete Research, 138(-): 106258, 2021. Link
M.K. Mohan, A.V. Rahul, G. De Schutter, K.V. Tittelboom. Extrusion-based concrete 3D printing from a material perspective: A state-of-the-art review. Cement and Concrete Composites, 115(-): 103855, 2021. Link
R. Jayathilakage, J. Sanjayan, and P. Rajeev. Comparison of Rheology Measurement Techniques Used in 3D Concrete Printing Applications. ICSECM 2019. Lecture Notes in Civil Engineering, vol. 24, Springer, Singapore: 261-273, 2021. Link
J.G. Sanjayan, R. Jayathilakage, P. Rajeev. Vibration induced active rheology control for 3D concrete printing. Cement and Concrete Research, 140(-): 106293, 2021. Link
R. Comminal, W.R. Leal da Silva, T.J. Andersen, H. Stang, J. Spangenberg. Modelling of 3D concrete printing based on computational fluid dynamics. Cement and Concrete Research, 138(-): 106256, 2020. Link
V.C. Li, F.P. Bos, K. Yu, W. McGee, T.Y. Ng, S.C. Figueiredo, K. Nefs, V. Mechtcherine, V.N. Nerella, J. Pan, G.P.A.G. van Zijl, P.J. Kruger. On the emergence of 3D printable Engineered, Strain Hardening Cementitious Composites (ECC/SHCC). Cement and Concrete Research, 132(-): 106038, 2020. Link
Z. Geng, W. She, W. Zuo, K. Lyu, H. Pan, Y. Zhang, C. Miao. Layer-interface properties in 3D printed concrete: Dual hierarchical structure and micromechanical characterization. Cement and Concrete Research, 138(-): 106220, 2020. Link
M. Mohammad, E. Masad, S.G. Al-Ghamdi. 3D Concrete Printing Sustainability: A Comparative Life Cycle Assessment of Four Construction Method Scenarios. Buildings, 10(12): 245, 2020. Link
A. Alkhalidi, D. Hatuqay. Energy efficient 3D printed buildings: Material and techniques selection worldwide study. Journal of Building Engineering, 30(-): 101286, 2020. Link
P. Shakor, S. Nejadi, G. Paul, J. Sanjayan. Dimensional accuracy, flowability, wettability, and porosity in inkjet 3DP for gypsum and cement mortar materials. Automation in Construction, 110(-): 102964, 2020. Link
Md. A. Hossain, A. Zhumabekova, S.C. Paul, J.R. Kim. A Review of 3D Printing in Construction and its Impact on the Labor Market. , 12(20): 8492, 2020. Link
G.S. Ortega, J.A. Madrid, N.O.E. Olsson, J.A. Tenorio. The Application of 3D-Printing Techniques in the Manufacturing of Cement-Based Construction Products and Experiences Based on the Assessment of Such Products. Buildings, 10(9): 144, 2020. Link
R.G. Rivera, R.G. Alvarado, A. Martinez-Rocamora, F.A. Cheein. A Comprehensive Performance Evaluation of Different Mobile Manipulators Used as Displaceable 3D Printers of Building Elements for the Construction Industry. Sustainability, 12(11): 4378, 2020. Link
S. Luhar, T. Suntharalingam, S. Navaratnam, I. Luhar, J. Thamboo, K. Poologanathan, P. Gatheeshgar. Sustainable and Renewable Bio-Based Natural Fibres and Its Application for 3D Printed Concrete: A Review. Sustainability, 12(24): 10485, 2020. Link
J.A. Hasse, A.P. Rubin, L.C. Quintanilha, W.L. Repette. Increasing structuration rate of 3D printable concretes: the effect of viscosity enhancing admixtures. Rev. IBRACON Estrut. Mater., 13(4): 13412, 2020. Link
A. Gopani, P. Shah, A. Shah. Developing and Analyzing Mix Design for 3D Printable Concrete. In: Proceedings of Concrete Durability and Service Life Planning. ConcreteLife 2020. RILEM Bookseries, 26(-): 109-113, 2020. Link
A.U. Rehman, S.-M. Lee, J.-H. Kim. Use of municipal solid waste incineration ash in 3D printable concrete. Process Safety and Environmental Protection, 142(-): 219-228, 2020. Link
G.M. Moelich, J. Kruger, R. Combrinck. Plastic shrinkage cracking in 3D printed concrete. Composites Part B: Engineering, 200(1): 108313, 2020. Link
H. Kloft, M. Empelmann, N. Hack, E. Herrmann, D. Lowke. Reinforcement strategies for 3D Concrete Printing. Civil Engineering Design, 2(4): 131-139, 2020. Link
L. Pham, P. Tran, J. Sanjayan. Steel fibres reinforced 3D printed concrete: Influence of fibre sizes on mechanical performance. Construction and Building Materials, 250(30): 118785, 2020. Link
S. Muthukrishnan, S. Ramakrishnan, J. Sanjayan. Effect of microwave heating on interlayer bonding and buildability of geopolymer 3D concrete printing. Construction and Building Materials, 265(-): 120786, 2020. Link
D.H. Murcia, M. Genedy, M.M. Reda Tahaa. Examining the significance of infill printing pattern on the anisotropy of 3D printed concrete. Construction and Building Materials, 262(-): 120559, 2020. Link
T. Marchment and J. Sanjayan. Bond properties of reinforcing bar penetrations in 3D concrete printing. Automation in Construction, 120(-): 103394, 2020. Link
B. Savija. Use of 3D printing to create multifunctional cementitious composites: review, challenges and opportunities. RILEM Technical Letters, 50(-): 16-25, 2020. Link
T. Ding, J. Xiao, S. Zou, X. Zhou. Anisotropic behavior in bending of 3D printed concrete reinforced with fibers. Composite Structures, 254(-): 112808, 2020. Link
Y. Chen, C.R. Rodriguez, Z. Li, B. Chen, O. Copuroglu, E. Schlangen. Effect of different grade levels of calcined clays on fresh and hardened properties of ternary-blended cementitious materials for 3D printing. Cement and Concrete Composites, 114(-): 103708, 2020. Link
J.J. Assaad, A.A. Yassin, F. Alsakka, and F. Hamzeh. A Modular Approach for Steel Reinforcing of 3D Printed Concrete-Preliminary Study. Sustainability, 12(10): 4062, 2020. Link
B. Panda, S. Ruan, C. Unluer, and M.J. Tan. Investigation of the properties of alkali-activated slag mixes involving the use of nanoclay and nucleation seeds for 3D printing. Composites Part B: Engineering, 186(-): 107826, 2020. Link
A. Siddika, MAA. Mamun, W. Ferdous W, A. Saha, R.Alyousef.. 3D Printed Concrete: Applications, Performance, and Challenges. Journal of Sustainable Cement-Based Materials, 9(3): 127-164, 2020. Link
Y. Xu, H. Zhang, E. Schlangen, M. Lukovic, and B. Savija. Cementitious cellular composites with auxetic behavior. Cement and Concrete Composites, 111(-): 103624, 2020. Link
Z. Liu, M. Li, Y. Weng, Y. Qian, T.N. Wong, and M.J. Tan. Modelling and parameter optimization for filament deformation in 3D cementitious material printing using support vector machine. Composites Part B: Engineering, 193(-): 108018, 2020. Link
B. Lu, W. Zhu, Y. Weng, Z. Liu, E.H. Yang, K.F. Leong, and S. Qian. Study of MgO-activated slag as a cementless material for sustainable spray-based 3D printing. Journal of Cleaner Production, 258(-): 120671, 2020. Link
G. Vantyghem, W. De Corte, E. Shakour, O. Amir. 3D printing of a post-tensioned concrete girder designed by topology optimization. Automation in Construction, 112(-): 103084, 2020. Link
P. Shakor, S. Nejadi, G. Paul. Investigation into the effect of delays between printed layers on the mechanical strength of inkjet 3DP mortar. Manufacturing Letters, 23(-): 19-22, 2020. Link
J. Kruger, S. Cho, S. Zeranka, C. Voljoen, G. van Zijl. 3D concrete printer parameter optimisation for high rate digital construction avoiding plastic collapse. Composites part B: Engineering, 183(-): 107660, 2020. Link
V. Mechtcherine, F.P. Bos, A. Perrot, W.R. Leal da Silva, V.N. Nerella, S. Fataei, R.J.M. Wolfs, M.Sonebi, N.Roussel. Extrusion-based additive manufacturing with cement-based materials – Production steps, processes, and their underlying physics: A review. Cement and Concrete Research, 132(-): 106037, 2020. Link
S. Muthukrishnan, H.W. Kua, L.N. Yu, J.K.H. Chung. Fresh Properties of Cementitious Materials Containing Rice Husk Ash for Construction 3D Printing. Journal of Materials in Civil Engineering, 32(8): XX-XX, 2020. Link
I. Dressler, N. Freund, D. Lowke. The Effect of Accelerator Dosage on Fresh Concrete Properties and on Interlayer Strength in Shotcrete 3D Printing. Materials, 13(2): 374, 2020. Link
T. Ding, J. Xiao, S. Zou, Y. Wang. Hardened properties of layered 3D printed concrete with recycled sand. Cement and Concrete Composites, (in Press): 103724, 2020. Link
A.S.J. Suiker, R.J.M. Wolfs, S.M. Lucas, T.A.M. Salet. Elastic buckling and plastic collapse during 3D concrete printing. Cement and Concrete Research, 135(-): 106016, 2020. Link
N. Roussel, J. Spangenberg, J.Wallevik, R. Wolfs. Numerical simulations of concrete processing: From standard formative casting to additive manufacturing. Cement and Concrete Research, 135(-): 106075, 2020. Link
Y. He, Y. Zhang, C. Zhang, H. Zhou. Energy-saving potential of 3D printed concrete building with integrated living wall. Energy and Buildings, 222(-): 110110, 2020. Link
S.A.O. Nair, S. Panda, M. Santhanam, G.Sant, N. Neithalath. A critical examination of the influence of material characteristics and extruder geometry on 3D printing of cementitious binders. Cement and Concrete Composites, 112(-): 103671, 2020. Link
R.A.Buswell, W.R. Leal da Silva, F.P.Bos, H.R. Schipper, D.Lowke, N.Hack, H. Kloft, V. Mechtcherine, T. Wangler, N.Roussel. A process classification framework for defining and describing Digital Fabrication with Concrete. Cement and Concrete Research, 134(-): 106068, 2020. Link
A.R. Arunothayan, B. Nematollahi, R. Ranade, S.H. Bong, J. Sanjayana. Development of 3D-printable ultra-high performance fiber-reinforced concrete for digital construction. Construction and Building Materials, 257(-): 119546, 2020. Link
L.Reiter, T. Wangler, A. Anton, R.J. Flatt. Setting on demand for digital concrete – Principles, measurements, chemistry, validation. Cement and Concrete Research, 132(-): 106047, 2020. Link
S.C. Figueiredo, C.R. Rodriguez, Z.Y. Ahmed, D.H. Bos, Y. Xu, T.M. Salet, O. Copuroglu, E. Schlangen, F.P. Bos. Mechanical Behavior of Printed Strain Hardening Cementitious Composites. Materials, 13(10): 2253, 2020. Link
A. Cicione, J. Kruger, RS. Walls, G. Zijl. An experimental study of the behavior of 3D printed concrete at elevated temperatures. Fire Safety Journal, (In press): 103075, 2020. Link
R. Jayathilakage, P. Rajeev, J.G. Sanjayan. Yield stress criteria to assess the buildability of 3D concrete printing. Construction and Building Materials, 240(-): 117989, 2020. Link
D. Falliano, D. De Domenico, G. Ricciardi, E. Gugliandolo. 3D-printable lightweight foamed concrete and comparison with classical foamed concrete in terms of fresh state properties and mechanical strength. Construction and Building Materials, 254(-): 119271, 2020. Link
J. Xu, R.A. Buswell, P. Kinnell, I. Biro, J. Hodgson, N. Konstantinidis, L. Ding. Inspecting manufacturing precision of 3D printed concrete parts based on geometric dimensioning and tolerancing. Automation in Construction, 117(-): 103233, 2020. Link
A. Perrot, Y. Jacquet, D. Rangeard, E. Courteille, M. Sonebi. Nailing of Layers: A Promising Way to Reinforce Concrete 3D Printing Structures. Materials, 13(7): 1518, 2020. Link
P. Carneau, R. Mesnil, N. Roussel, O. Baverel. Additive manufacturing of cantilever – From masonry to concrete 3D printing. Automation in Construction, 116(-): 103184, 2020. Link
Z. Liu, M. Li, Y.W.D.Tay, Y. Weng, T.N. Wong, M.J. Tan. Rotation nozzle and numerical simulation of mass distribution at corners in 3D cementitious material printing. Additive Manufacturing, 34(-): 101190, 2020. Link
J.H. Jo, B.W. Jo , W. Cho, J-H. Kim. Development of a 3D Printer for Concrete Structures: Laboratory Testing of Cementitious Materials. International Journal of Concrete Structures and Materials volume, 14(13): 1-11, 2020. Link
B. Panda, C. Unluer, M. JenTan. Extrusion and rheology characterization of geopolymer nanocomposites used in 3D printing. Composites Part B: Engineering, 176: XX-XX, 2019. Link
R.J.M. Wolfs, F.P. Bos, and T.A.M. Salet. Hardened properties of 3D printed concrete: The influence of process parameters on interlayer adhesion. Cement and Concrete Research, 119: 132-140, 2019. Link
P. Shakor, S. Nejadi, G. Paul. A Study into the Effect of Different Nozzles Shapes and Fibre-Reinforcement in 3D Printed Mortar. Materials, 12(10): 1708, 2019. Link
Y. Weng, S. Ruan, M. Li, L. Mo, C. Unluer, M.J. Tan, and S. Qian. Feasibility study on sustainable magnesium potassium phosphate cement paste for 3D printing. Construction and Building Materials, 221(-): 595-603, 2019. Link
R. Arunothayan , B. Nematollahi , S.H. Bong, R. Ranade, J. Sanjayan. Hardened Properties of 3D Printable Ultra-High Performance Fiber-Reinforced Concrete for Digital Construction Applications. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 355-362, 2020. Link
S.H. Bong, B. Nematollahi, M. Xia, A. Nazari, J. Sanjayan, J. Pan. Properties of 3D-Printable Ductile Fibre-Reinforced Geopolymer Composite for Digital Construction Applications. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 363-372, 2020. Link
T. Dorn, T. Hirsch, D. Stephan. Study on the Influence of Accelerators on the Hydration of Portland Cement and Their Applicability in 3D Printing. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 382-390, 2020. Link
S. Cho, J. Kruger, A. Rooyen, S. Zeranka, G. Zijl. Rheology of 3D Printable Lightweight Foam Concrete Incorporating Nano-Silica. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 373-381, 2020. Link
R.I. Jayathilakage, P. Rajeev, J. Sanjayan. Predication of Strength-Based Failure in Extrusion-Based 3D Concrete Printing. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 391-399, 2020. Link
J. Kruger, S. Zeranka, G. Zijl. Quantifying Constructability Performance of 3D Concrete Printing via Rheology-Based Analytical Models. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 400-408, 2020. Link
C. Matthaus, D. Weger, T. Krankel, L.S. Carvalho, C. Gehlen. Extrusion of Lightweight Concrete: Rheological Investigations. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 409-416, 2020. Link
B. Nematollahi, M. Xia, J. Sanjayan. Enhancing Strength of Powder-Based 3D Printed Geopolymers for Digital Construction Applications. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 417-425, 2020. Link
B. Panda, N.A.N. Mohamed, M.J. Tan. Rheology and Structural Rebuilding of One-Part Geopolymer Mortar in the Context of 3D Concrete Printing. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 426-431, 2020. Link
S.P. Shah, J.H. Kim. Rheology of Fresh Concrete: Historical Perspective and Glance in the Future. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 432-439, 2020. Link
A. Szabo, L. Reiter, E. Lloret-Fritschi, F. Gramazio, M. Kohler, R.J. Flatt. Processing of Set on Demand Solutions for Digital Fabrication in Architecture. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 440-447, 2020. Link
T. Wangler, F. Scotto, E. Lloret-Fritschi, R.J. Flatt. Residence Time Distributions in Continuous Processing of Concrete. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 448-456, 2020. Link
M. Xia, B. Nematollahi, J. Sanjayan. Post-processing Techniques to Enhance Strength of Portland Cement Mortar Digitally Fabricated Using Powder-Based 3D Printing Process. Rheology and Processing of Construction Materials. RheoCon 2019, SCC 2019, (RILEM Bookseries; Vol. 23, Berlin, Cham): 457-464, 2020. Link
A.V. Rahul, M. Santhanam, H. Meena, Z. Ghani. 3D printable concrete: Mixture design and test methods. Cement and Concrete Composites, 97: 13-23, 2019. Link
Z. Liu, M. Li, Y. Weng, T.N. Wong, M.J. Tan. Mixture Design Approach to optimize the rheological properties of the material used in 3D cementitious material printing. Construction and Building Materials, 198: 245-255, 2019. Link
P. Shakor, S. Nejadi, G. Paul, S. Malek. Review of Emerging Additive Manufacturing Technologies in 3D Printing of Cementitious Materials in the Construction Industry. Frontiers in Built Environment, 4(85): 1-17, 2019. Link
Y. Weng, M. Li, Z. Liu, W. Lao, B. Lu, D. Zhang, and M.J. Tan. Printability and fire performance of a developed 3D printable fibre reinforced cementitious composites under elevated temperatures. Virtual and Physical Prototyping, 14(3): 284-292, 2019. Link
S.C. Figueiredo, C.R. Rodriguez, Z.Y.Ahmed, D.H.Bos, Y. Xua, T.M. Salet, O. Copuroglu, E. Schlangena, F.P.Bos. An approach to develop printable strain hardening cementitious composites. Materials & Design, 169: XX-XX, 2019. Link
J. Kruger, M. van den Heever, S. Cho, S. Zeranka, G. van Zijl. High-performance 3D printable concrete enhanced with nanomaterials. Proceedings of the International Conference on Sustainable Materials, Systems and Structures: New Generation of Construction Materials, (-): 533-540, 2019. Link
F. Bester, M. van den Heever, J. Kruger, S. Zeranka, G. van Zijl. Benchmark structures for 3D concrete printing. Proceedings of the fib symposium: Concrete Innovations in Materials, Design and Structures, (-): 305-312, 2019. Link
G. van Zijl, J. Kruger, S. Cho, S. Zeranka. 3D printing polymer fibre concrete. Proceedings of the International Inorganic-Bonded Fiber Composite Conference, (-): 5-14, 2018. Link
Y. Zhang, Y. Zhang, G. Liu, Y.Yang, M. Wu, and B. Pang. Fresh properties of a novel 3D printing concrete ink. Construction and Building Materials, 174(-): 263-271, 2018. Link
J. Kruger, S. Zeranka, G. van Zijl. 3D concrete printing: A lower bound analytical model for buildability performance quantification. Automation in Construction, 106: XX-XX, 2019. Link
J. Kruger, S. Zeranka, G. van Zijl. An ab initio approach for thixotropy characterisation of (nanoparticle-infused) 3D printable concrete. Construction and Building Materials, 224: 372-386, 2019. Link
Y. Xu, B. Savija. Development of strain hardening cementitious composite (SHCC) reinforced with 3D printed polymeric reinforcement: Mechanical properties. Composites Part B: Engineering, 174: XX-XX, 2019. Link
A. Kazemian, X. Yuan, O. Davtalab, B. Khoshnevis. Computer vision for real-time extrusion quality monitoring and control in robotic construction. Automation in Construction, 101(-): 92-98, 2019. Link
B. Panda, N.A.N. Mohamed , S.C. Paul, GVP.B. Singh, M.J. Tan, and B. Savija. The Effect of Material Fresh Properties and Process Parameters on Buildability and Interlayer Adhesion of 3D Printed Concrete. Materials, 12(13): 1-12, 2019. Link
B.N. Diggs-McGee, E.L. Kreiger, M.A. Kreiger, M.P. Case. Print time vs. elapsed time: A temporal analysis of a continuous printing operation for additive constructed concrete. Additive Manufacturing, 28: 205-214, 2019. Link
E.L. Kreiger, M.A. Kreiger, M.P. Case. Development of the construction processes for reinforced additively constructed concrete. Additive Manufacturing, 28: 39-49, 2019. Link
B. Lu, Y. Weng, M. Li, Y. Qian, K.F. Leong, M.J. Tan, and S. Qian. A systematical review of 3D printable cementitious materials. Construction and Building Materials, 207(-): 477-490, 2019. Link
B. Panda, J. H. Lim, M. J. Tan.. Mechanical properties and deformation behaviour of early age concrete in the context of digital construction. Composites Part B: Engineering, 165: 563-571, 2019. Link
T. Marchment, J. Sanjayan, M. Xia. Method of enhancing interlayer bond strength in construction scale 3D printing with mortar by effective bond area amplification. Materials & Design, 169: XX-XX, 2019. Link
B. Panda, M. J. Tan.. Rheological behavior of high-volume fly ash mixtures containing micro silica for digital construction application. Materials Letters, 237: 348-351, 2019. Link
B. Panda, GVP B. Singh, C. Unluer, M. J. Tan. Synthesis and characterization of one-part geopolymers for extrusion based 3D concrete printing. Journal of Cleaner Production, 220: 610-619, 2019. Link
T. Wangler, N. Roussel, F.P. Bos, T.A.M. Salet, R.J.Flatt. Digital Concrete: A Review. Cement and Concrete Research, 123: XX-XX, 2019. Link
R.J.M. Wolfs, A.S.J. Suiker. Structural failure during extrusion-based 3D printing processes. The International Journal of Advanced Manufacturing Technology, (-): 1-20, 2019. Link
W.R. Leal da Silva, H. Fryda, J-N. Bousseau, P-A. Andreani, T.J. Andersen. Evaluation of Early-Age Concrete Structural Build-Up for 3D Concrete Printing by Oscillatory Rheometry. Advances in Additive Manufacturing, Modeling Systems and 3D Prototyping. AHFE 2019. Advances in Intelligent Systems and Computing, 975: 35-47, 2019. Link
V.N. Nerella, S. Hempel, V. Mechtcherine. Effects of layer-interface properties on mechanical performance of concrete elements produced by extrusion-based 3D-printing. Construction and Building Materials, 205: 586-601, 2019. Link
Y.W.D. Tay, M.Y. Li, M.J. Tan. Effect of printing parameters in 3D concrete printing: Printing region and support structures. Journal of Materials Processing Technology, 271: 261-270, 2019. Link
A. Inozemtcev, T.Q. Duong. Technical and economic efficiency of materials using 3D-printing in construction on the example of high-strength lightweight fiber- reinforced concrete. Proceedings of XXII International Scientific Conference – Construction the Formation of Living Environment – (FORM-2019), (-): 1-10, 2019. Link
R. Comminal, M.P. Serdeczny, D.B. Pedersen, J. Spangenberg. Motion planning and numerical simulation of material deposition at corners in extrusion additive manufacturing. Additive Manufacturing, 29(-): 100753, 2019. Link
E. Hosseini, M. Zakertabrizi, A.H. Korayem, G. Xu. A novel method to enhance the interlayer bonding of 3D printing concrete: An experimental and computational investigation. Cement and Concrete Composites, 99: 112-119, 2019. Link
R.J.M.Wolfs, F.P.Bos, T.A.M. Salet. Hardened properties of 3D printed concrete: The influence of process parameters on interlayer adhesion. Cement and Concrete Research, 119: 132-140, 2019. Link
B. Mazhouda, A. Perrota, V. Picandeta, D. Rangeard, E. Courteille. Underwater 3D printing of cement-based mortar. Construction and Building Materials, 214: 458-467, 2019. Link
R.J.M. Wolfs, F.P. Bos, T.A.M. Salet. Triaxial compression testing on early age concrete for numerical analysis of 3D concrete printing. Cement and Concrete Composites, 104: 1-12, 2019. Link
B. Lu, Y. Qian, M. Li, Y. Weng, K.F. Leong, M.J Tan, and S. Qian. Designing spray-based 3D printable cementitious materials with fly ash cenosphere and air entraining agent. Construction and Building Materials, 211(-): 1073-1084, 2019. Link
V.N.Nerella, M. Nather, A.Iqbal, M.Butler, V.Mechtcherine. Inline quantification of extrudability of cementitious materials for digital construction. Cement and Concrete Composites, 95: 260-270, 2019. Link
Chen, Y., Li, Z., Chaves Figueiredo, S., Copuroglu, O., Veer, F., Schlangen, E.. Limestone and Calcined Clay-Based Sustainable Cementitious Materials for 3D Concrete Printing: A Fundamental Study of Extrudability and Early-Age Strength Development. Applied Sciences, 9: 1-19, 2019. Link
Chen, Y., Chaves Figueiredo, S., Yalcinkaya, C., Copuroglu, O., Veer, F., Schlangen, E.. The Effect of Viscosity-Modifying Admixture on the Extrudability of Limestone and Calcined Clay-Based Cementitious Material for Extrusion-Based 3D Concrete Printing. Materials, 12: 1-16, 2019. Link
V.N.Nerella, M.A.B.Beigh, S.Fataei, V.Mechtcherine. Strain-based approach for measuring structural build-up of cement pastes in the context of digital construction. Cement and Concrete Research, 115: 530-344, 2019. Link
R. Buswell, W.R. Leal da Silva, S.Z. Jones, J. Dirrenberger. 3D printing using concrete extrusion: A roadmap for research. Cement and Concrete Research, 112 (S.I.): 37-49, 2018. Link
R. Jayathilakage, J. Sanjayan, P. Rajeev. Direct shear test for the assessment of rheological parameters of concrete for 3D printing applications. Materials and Structures, 52(12): XX-XX, 2019. Link
Y. Zhang, Y. Zhang, G. Liu, Y. Yang, M. Wu, B.Pang. Fresh properties of a novel 3D printing concrete ink. Construction and Building Materials, 174: 263-271, 2018. Link
T.A.M. Salet, Z.Y. Ahmed, F.P. Bos, H.L.M. Laagland. 3D printed concrete bridge. 3rd International Conference on Progress in Additive Manufacturing, (Pro-AM 2018): 2-9, 2018. Link
O. Davtalab, A. Kazemian, B. Khoshnevis. Perspectives on a BIM-integrated software platform for robotic construction through Contour Crafting. Automation in Construction, 89(-): 13-23, 2018. Link
C.B. Costanzi, Z.Y. Ahmed, H.R. Schipper, F.B. Bos, U. Knaack, R.J.M. Wolfs. 3D Printing Concrete on temporary surfaces: The design and fabrication of a concrete shell structure. Automation in Construction, 94: 395-404, 2018. Link
S.H. Ghaffar. Commentary: 3D printing set to transform the construction industry. Proceedings of the Institution of Civil Engineers – Structures and Buildings, 170(10): 737-738, 2018. Link
F.P. Bos , E. Bosco, T.A.M. Salet. Ductility of 3D printed concrete reinforced with short straight steel fibers. Virtual and Physical Prototyping, 14(2): 160-174, 2018. Link
Y. Weng, B.M. Li, Z.Liu, M.J. Tan, S. Qian. Empirical models to predict rheological properties of fiber reinforced cementitious composites for 3D printing. Construction and Building Materials, 189: 676-685, 2018. Link
J.H. Lim, Y. Weng, M. Li. Effect of fiber reinforced polymer on mechanical performance of 3D printed cementitious material. Proc. 3nd Int. Conf. Prog. Addit. Manuf. (Pro-AM 2018), (-): 44-49, 2018. Link
S.H. Ghaffar, J. Corker, M. Fana. Additive manufacturing technology and its implementation in construction as an eco-innovative solution. Automation in Construction, 93: 1-11, 2018. Link
S. Bhooshan, T. Van Mele, P. Block. Equilibrium-Aware Shape Design for Concrete Printing. Humanizing Digital Reality, (-): 493-508, 2018. Link
F.P. Bos, R.J.M. Wolfs, R., Y.Z. Ahmed, T.A.M. Salet. Large-scale testing of digitally fabricated concrete (DFC) elements. First RILEM International Conference on Concrete and Digital Fabrication – Digital Concrete 2018, (RILEM Bookseries; Vol. 19, Berlin: Springer): 129-147, 2018. Link
M. Moini, J. Olek, B. Magee, P. Zavattieri, J. Youngblood. Additive Manufacturing and Characterization of Architectured Cement-Based Materials via X-ray Micro-computed Tomography. First RILEM International Conference on Concrete and Digital Fabrication – Digital Concrete 2018, (RILEM Bookseries; Vol. 19, Berlin: Springer): 176-189, 2018. Link
Y. Weng, M. Li, M.J. Tan, S. Qian. 3D printable high-performance fiber reinforced cementitious composites for large-scale printing. In: Proceedings of the 3rd International Conference on Progress in Additive Manufacturing, (Pro-AM 2018), Singapore: 19-24, 2018. Link
B. Lu, M. Li, W. Lao, Y. Weng, M.J. Tan, S. Qian. Experimental Investigation of Printing Parameters on Material Distribution in 3D Spray Cementitious Material Printing Process. In: Proceedings of the 29th Annual International Solid Freeform Fabrication Symposium -0 An Additive Manufacturing Conference, (-): 1989-2002, 2018. Link
J.H. Lim, Y. Weng, M. Li. Effect of fiber reinforced polymer on mechanical performance of 3d printed cementitious material. In: Proceedings of the 3rd International Conference on Progress in Additive Manufacturing, (Pro-AM 2018), Singapore: 44-49, 2018. Link
Y. Weng, M. Li, M.J. Tan, S. Qian. 3D Printable high performance fiber reinforced cementitious composites for large-scale printing. In: Proc. 3nd Int. Conf. Prog. Addit. Manuf. (Pro-AM 2018), (-): 19-24, 2018. Link
M. Moini, J. Olek, J.P. Youngblood, B.Magee, P.D. Zavattieri. Additive Manufacturing and Performance of Architectured Cement-Based Materials. Advanced Materials, 30(43): XX-XX, 2018. Link
D. Asprone, F. Auricchio, C. Menna, V. Mercuri. 3D printing of reinforced concrete elements: Technology and design approach. Construction and Building Materials, 165: 156-218, 2018. Link
S. Bhooshan, J. Ladinig, T. Van Mele, P. Block. Function Representation for Robotic 3D Printed Concrete. Robotic Fabrication in Architecture, Art and Design, (ROBARCH 2018): 98-109, 2018. Link
J. H. Lim, B.Panda, Q. C. Pham. Improving flexural characteristics of 3D printed geopolymer composites with in-process steel cable reinforcement. Construction and Building Materials, 178: 32-41, 2018. Link
B. Panda, T.W.D. Tay, S.C. Paul, M.J. Tan. Current challenges and future potential of 3D concrete printing. Material Science and Engineering Technology, 49(5): 666-673, 2018. Link
B. Panda, S. Ruan, C. Unluer, M.J. Tan. Improving the 3D printability of high volume fly ash mixtures via the use of nano attapulgite clay. Composites Part B: Engineering, 165: 75-83, 2018. Link
B. Panda, Biranchi, C. Unluer, M.J.Tan. Investigation of the rheology and strength of geopolymer mixtures for extrusion-based 3D printing. Cement and Concrete Composites, 94: 307-314, 2018. Link
B. Panda, M.J. Tan. Experimental study on mix proportion and fresh properties of fly ash based geopolymer for 3D concrete printing. Ceramics International, 44(9): 10258-10265, . Link
S.C.Paul, Y. W.D. Tay, B. Panda, M.J.Tan. Fresh and hardened properties of 3D printable cementitious materials for building and construction. Archives of Civil and Mechanical Engineering, 18(1): 311-319, 2018. Link
J.G. Sanjayan, B. Nematollahi, M. Xia, T. Marchment. Effect of surface moisture on inter-layer strength of 3D printed concrete. Construction and Building Materials, 172: 468-475, 2018. Link
G. De Schutter, K. Lesage, V. Mechtcherine, V.N. Nerella, G. Habert, I. Agusti-Juan. Vision of 3D printing with concrete – Technical, economic and environmental potentials. Cement and Concrete Research, 112 (S.I.): 25-36, 2018. Link
N. Roussel. Rheological requirements for printable concretes. Cement and Concrete Research, 112: 76-85, 2018. Link
D. Asprone, C. Menna, F. Bos, T. Salet, J. Mata-Falcon, W. Kaufmann. Rethinking reinforcement for digital fabrication with concrete. Cement and Concrete Research, 112 (S.I.): 111-121, 2018. Link
R. Wolfs, F. Bos, T. Salet. Early age mechanical behaviour of 3D printed concrete: numerical modelling and experimental testing. Cement and Concrete Research, 106: 103-116, 2018. Link
L. Reiter, T. Wangler, N. Roussel, R.J. Flatt. The role of early age structural build-up in digital fabrication with concrete. Cement and Concrete Research, 112 (S.I.): 86-95, 2018. Link
R. Duballet, O. Baverel, J. Dirrenberger. Design of Space Truss Based Insulating Walls for Robotic Fabrication in Concrete. Humanizing Digital Reality, Springer: 453-461, 2018. Link
R.J.M. Wolfs, F.P. Bos, E.C.F. van Strien, T.A.M. Salet. A Real-Time Height Measurement and Feedback System for 3D Concrete Printing. High Tech Concrete: Where Technology and Engineering Meet. Springer, Cham, : 2474-2483, 2018. Link
D. Lowke, E. Dini, A. Perrot, D. Wenger, C. Gehlen, B. Dillenburger. Particle-bed 3D printing in concrete construction – possibilities and challenges. Cement and Concrete Research, 112 (S.I.): 50-65, 2018. Link
W.R. Leal da Silva, T.J. Andersen, A. Kudsk, K.F. Jorgensen. 3D Concrete Printing of post-tensioned elements. IASS Symposium 2018 Creativity in Structural Design, IASS 2018: 1-10, 2018. Link
D. Marchon, S. Kawashima, H. Bessaies-Bey, S. Mantellato, S. Ng. Hydration and rheology control of concrete for digital fabrication: Potential admixtures and cement chemistry. Cement and Concrete Research, 112 (S.I.): 96-110, 2018. Link
B. Lu, M. Li, W. Lao, Y. Weng, S. Qian, M.J. Tan, K.F. Leong. Effect of spray-based printing parameters on cementitious material distribution. Proc. 29th Annu. Int. Solid Free. Fabr. Symp. – An Addit. Manuf. Conf., (-): 1989-2002, 2018. Link
P. Ayres, W.R. Leal da Silva, P. Nicholas, T.J. Andersen, J.P.R. Greisen. SCRIM – Sparse Concrete Reinforcement in Meshworks. Robotic Fabrication in Architecture, Art and Design 2018, ROBARCH 2018: 207-220, 2018. Link
P. Martens, M. Mathot, F. Bos, J. Coenders. Optimising 3D Printed Concrete Structures Using Topology Optimisation. High Tech Concrete: Where Technology and Engineering Meet, Springer: 301-309, 2018. Link
B. Panda, S.C. Paul, N.A.N. Mohamed, Y.W.D. Tay, M.J. Tan. Measurement of tensile bond strength of 3D printed geopolymer mortar. Measurement, 113: 108-116, 2018. Link
Salet T.A., Ahmed Z.Y., Bos F.P., Laagland H.L.. Design of a 3D printed concrete bridge by testing. Virtual and Physical Prototyping, 13: 222-236, 2018. Link
Mechtcherine V., Grafe J., Nerella V.N., Spaniol E., Hertel M., Fussel U.. 3D-printed steel reinforcement for digital concrete construction – Manufacture, mechanical properties and bond behaviour. Construction and Building Materials, 179: 125-137, 2018. Link
Nematollahi B., Xia M., Sanjayan J., Vijay P.. Effect of Type of Fiber on Inter-Layer Bond and Flexural Strengths of Extrusion-Based 3D Printed Geopolymer. 2nd International Conference on Advanced Manufacturing and Materials (ICAMM 2018), Tokyo, Japan: 119-126, 2018. Link
Soltan D.G., Li V.C.. A self-reinforced cementitious composite for building-scale 3D printing. Cement and Concrete Composites, 90: 1-13, 2018. Link
Mechtcherine V., Nerella V.N.. 3D Printing with concrete: State-of-the art, trends, challenges. Bautechnik, 95: 257-287, 2018. Link
Wolfs R., Bos F., Salet T.. Correlation between destructive compression tests and non-destructive ultrasonic measurements on early age 3D printed concrete. Construction and Building Materials, 181: 447-454, 2018. Link
A. Suiker. Mechanical performance of wall structures in 3D printing processes: Theory, design tools and experiments. International Journal of Mechanical Sciences, 137: 145-170, 2018. Link
T. Salet, F. Bos, R. Wolfs, Z. Ahmed. 3D concrete printing – a structural engineering perspective. fib Symposium – High Tech Concrete: Where Technology and Engineering Meet, Springer: 43-57, 2017. Link
B. Zareiyan and B.Khoshnevis. Effects of interlocking on interlayer adhesion and strength of structures in 3D printing of concrete. Automation in Construction, 83(-): 212-221, 2017. Link
G. Ma, L. Wang. A critical review of preparation design and workability measurement of concrete material for largescale 3D printing. Frontiers of Structural and Civil Engineering, 12(3): 382-400, 2017. Link
V.N. Nerella, S. Hempel, V. Mechtcherine. Micro- and macroscopic investigations on the interface between layers of 3D-printed cemontitions elements. International Conference on Advances in Construction Materials and Systems, Chennai, India: 1-10, 2017. Link
Y. Chen, F. Veer, O. Copuroglu. A Critical Review of 3D Concrete Printing as a Low CO2 Concrete Approach. HERON, 62(3): 167-194, 2017. Link
A. Kazemian, X. Yuan, E. Cochran, B. Khoshnevis. Cementitious materials for construction-scale 3D printing: Laboratory testing of fresh printing mixture. Construction and Building Materials, 145(-): 639-647, 2017. Link
R. Duballet, O. Baverel, J. Dirrenberger. Classification of building systems for concrete 3D printing. Automation in Construction, 83: 247-258, 2017. Link
P. Shakor, J. Renneberg, S. Nejadi, G. Paul. Optimisation of different concrete mix designs for 3D Printing by utilising 6DOF industrial robot. In: Proceedings of the 34th International Symposium on Automation and Robotics in Construction, ISARC2017: XX-XX, 2017. Link
F. Bos, Z. Ahmed, R. Wolfs, T. Salet. 3D Printing concrete with reinforcement. High Tech Concrete: Where Technology and Engineering Meet, Springer: 2484-2493, 2018. Link
B. Panda, S.C. Paul, L.J. Hui, Y.W.D. Tay, M.J. Tan. Additive manufacturing of geopolymer for sustainable built environment. Journal of Cleaner Production, 167: 281-288, 2017. Link
M. Hambach, D. Volkmer. Properties of 3D-printed fiber-reinforced Portland cement paste. Cement and Concrete Composites, 79: 62-70, 2017. Link
F.P. Bos, Z.Y. Ahmed, E.R. Jutinov, T.A. Salet. Experimental Exploration of Metal Cable as Reinforcement in 3D Printed Concrete. Materials, 10: 1-22, 2017. Link
B. Panda, S. Paul, M. Tan. Anisotropic mechanical performance of 3D printed fiber reinforced sustainable construction material. Materials Letters, 209: 146-149, 2017. Link
V.N. Nerella, V. Mechtcherine, M. Krause, M. Nather. Concepts for assuring printability of concrete using rheology as a tool for additive construction. 26th Conference on Rheologische Messungen an Baustoffen, Regensburg, Germany: 112-114, 2017. Link
P. Shakor, J. Sanjayan, A. Nazari, S. Nejadi. Modified 3D printed powder to cement-based material and mechanical properties of cement scaffold used in 3D printing. Construction and Building Materials, 138(-): 398-409, 2017. Link
P. Wu, J. Wang, X. Wang. A critical review of the use of 3-D printing in the construction industry. Automation in Construction, 68: 21-31, 2016. Link
V.N. Nerella, V. Mechtcherine, M. Krause, M. Nather. 3D-Printing Technology for on-site Construction. Concrete Plant International, 4: 36-40, 2016. Link
C. Gosselin, R. Duballet, P. Roux, N. Gaudilliere, J. Dirrenberger, P. Morel. Large-scale 3D printing of ultra-high performance concrete – a new processing route for architects and builders. Materials and Design, 100: 102-109, 2016. Link
Z. Ahmed, F. Bos, R. Wolfs, T. Salet. Design considerations due to scale effects in 3D concrete printing. Proceedings of 8th International Conference of the Arab Society for Computer Aided Architectural Design (ASCAAD 2016), London, U.K.: 115-124, 2016. Link
Y. Weng, B. Lu, M.J. Tan, and S. Qian. Rheology and Printability of Engineered Cementitious Composites – A Literature Review. in: Proceedings of the 2nd International Conference on Progress in Additive Manufacturing, (Pro-AM 2016), Singapore: 427-432, 2016. Link
T. Wangler, E. Lloret, L. Reiter, N. Hack, F. Gramazio, M. Kohler, M. Bernhard, B. Dillenburger, J. Buchli, N. Roussel, R.J. Flatt. Digital concrete: opportunities and challenges. RILEM Technical Letters, 1 (S.I.): 67-75, 2016. Link
S. Lim, R. Buswell, P. Valentine, D. Piker, S. Austin, X. Kestelier. Modelling curved-layered printing paths for fabricating large-scale construction components. Additive Manufacturing, 12: 216-230, 2016. Link
F. Bos, R. Wolfs, Z. Ahmed, T. Salet. Additive manufacturing of concrete in construction: potentials and challenges of 3D concrete printing. Virtual Physical Prototyping, 11: 209-225, 2016. Link
Y. Weng, B. Lu, M. Tan, S. Qian. Rheology and Printability of Engineered Cementitious Composites-A Literature Review. Proc. 2nd Int. Conf. Prog. Addit. Manuf. (Pro- AM 2016), (-): 427-432, 2016. Link
A. Perrot, D. Rangeard, A. Pierre. Structural built-up of cement-based materials used for 3D printing extrusion techniques. Materials and Structures, 49: 1213-1220, 2016. Link
N. Labonnote, A. Ronnquist, B. Manum, P. Ruther. Additive construction: state-of-the-art, challenges and opportunities. Automation in Construction, 72: 347-366, 2016. Link
D. Weinstein, P. Nawara. Determining the applicability of 3D concrete construction (contour crafting) of low income houses in select countries. Cornell Real Estate Review1, 13(1): 94-111, 2015. Link
G. Cesaretti, E. Dini, X. De Kestelier, V. Colla, L. Pambaguian. Building components for an outpost on the lunar soil by means of a novel 3D printing technology. Acta Austronautica, 93: 430-450, 2014. Link
T. Le, S. Austin, S. Lim, R. Buswell, A. Gibb, T. Thorpe. Mix design and fresh properties for high-performance printing concrete. Materials and Structures, 45: 1221-1232, 2012. Link
S. Lim, R. Buswell, T. Le, S. Austin, A. Gibb, T. Thorpe. Developments in construction-scale additive manufacturing processes. Automation in Construction, 21: 262-268, 2012. Link
S. Lim, R. Buswell, T. Le, R. Wackrow, S. Austin, A. Gibb, A. Thorpe. Development of a viable concrete printing process. 28th International Symposium on Automation and Robotics in Construction (ISARC2011), Imperial Palace Hotel, Seoul, South Korea: 665-670, 2011. Link
G.J. Gibbons, R. Williams, P. Purnell, E. Farahi. 3D Printing of cement composites. Advances in Applied Ceramics, 109: 287-290, 2010. Link
R. Buswell, T. Thorpe, R. Soar, A. Gibb. Design data issues for the control of mega-scale rapid manufacturing. 24th CIB W78 Conference – Bringing ITC knowledge to work, Maribor, Slovenia: 1-9, 2007. Link
R. Buswell, R. Soar, A. Gibb, A. Thorpe. Freeform construction: mega-scale rapid manufacturing for construction. Automation in Construction, 16: 224-231, 2007. Link
B. Khoshnevis, D. Hwang, K. Yao, Z. Yeh. Mega-scale fabrication by contour crafting. International Journal of Industrial and Systems Engineering, 1 (3): 301-320, 2006. Link
B. Khoshnevis. Automated construction by contour crafting-related robotics and information technologies. Automation in Construction, 13: 5-19, 2004. Link
J. Pegna. Exploratory investigation of solid freeform construction. Automation in Construction, 5: 427-437, 1997. Link
