Cumincad : CUMINCAD References : Search Results

CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

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	Bedarf P, Szabo A, Zanini M, et al (2022) 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 2022; 61–70

	Bedarf, P., Szabo, A., Zanini, M., Heusi, A., & Dillenburger, B. (2022) Robotic 3D Printing of Mineral Foam for a Lightweight Composite Concrete Slab , 28th International Conference on Computer-Aided Architectural Design Research Asia: Post-carbon, CAADRIA 222 (pp. 63-612). The Association for Computer-Aided Architectural Design Research Asia (CAADRIA), Available at: https://doi.org/1.52842/conf.caadria.222.2.61.

	Gislason, S. Bruhn, S., Breseghello, L., Sen, B., Liu, G., Naboni, R. (2022) Lightweight 3D Printed Concrete Beams Show An Environmental Promise: A Cradle-to-Grave Comparative Life Cycle Assessment , Clean Technol Envir. In press

	Doyle, S., & Hunt, E. (2019) Dissolvable 3D Printed Formwork: Exploring Additive Manufacturing for Reinforced Concrete , Ubiquity and Autonomy: Proceedings of the 39th Annual Conference of the Association for Computer Aided Design Architecture, ACADIA 219 (pp. 178-188). Association for Computer-Aided Design Architecture (ACADIA)

	Doyle, Shelby, Hunt, Erin (2019) Dissolvable 3D Printed Formwork: Exploring Additive Manufacturing for Reinforced Concrete , ACADIA 2019: Ubiquity and Autonomy: Proceedings of the 39th Annual Conference of the Association for Computer Aided Design in Architecture, edited by Kory Bieg, Clay Odom, 178-188. Austin, Texas, USA: ACADIA

	Gosselin, C., Duballet, R., Roux, P., Gaudilliere, N., Dirrenberger, J. & Morel, P. (2016) Large-scale 3D printing of ultra-high performance concrete–a new processing route for architects and builders , Materials & Design, 100, 102-109. https://doi.org/10.1016/j.matdes.2016.03.097Khoshnevis, B. (2004). Automated construction by contour crafting—related robotics and information technologies. Automation in construction, 13(1), 5-19. https://doi.org/10.1016/j.autcon.2003.08.012Le, T. T., Austin, S. A., Lim, S., Buswell, R. A., Gibb, A. G., & Thorpe, T. (2012). Mix design and fresh properties for high-performance printing concrete. Materials and structures, 45(8), 1221-1232. https://doi.org/10.1617/s11527-012-9828-zLi, Z., Wang, L., Ma, G., Sanjayan, J., & Feng, D. (2020). Strength and ductility enhancement of 3D printing structure reinforced by embedding continuous micro-cables. Construction and Building Materials, 264, 120196. https://doi.org/10.1016/j.conbuildmat.2020.120196Lim, J. H., Weng, Y., & Pham, Q. C. (2020). 3D printing of curved concrete surfaces using Adaptable Membrane Formwork. Construction and Building Materials, 232, 117075. https://doi.org/10.1016/j.conbuildmat.2019.117075Ma, G., Li, Z., Wang, L., & Bai, G. (2019). Micro-cable reinforced geopolymer composite for extrusion-based 3D printing. Materials Letters, 235, 144-147. https://doi.org/10.1016/j.matlet.2018.09.159Masoud Akbarzadeh. Andrei Nejur.(2019). Polyframe. From https://psl.design.upenn.edu/polyframe/Mechtcherine, V., Nerella, V. N., Will, F., Näther, M., Otto, J., & Krause, M. (2019). Large-scale digital concrete construction–CONPrint3D concept for on-site, monolithic 3D-printing. Automation in Construction, 107, 102933. https://doi.org/10.1016/j.autcon.2019.102933Salet, T. A., Ahmed, Z. Y., Bos, F. P., & Laagland, H. L. (2018). Design of a 3D printed concrete bridge by testing. Virtual and Physical Prototyping, 13(3), 222-236. https://doi.org/10.1080/17452759.2018.1476064

	Hambach, M. and D. Volkmer. (2017) Properties of 3D-printed Fiber-reinforced Portland Cement Paste , Cement Concrete Composites 79: 62-70

	L. Reiter, A. Anton, T. Wangler, B. Dillenburger, and R. J. Flatt (2022) A 3D Printing Platform for Reinforced Printed-Sprayed Concrete Composites , Third RILEM International Conference on Concreteand Digital Fabrication. RILEM Bookseries, vol 37. Cham: Springer

	Pham, L, Lu, G and Tran, P (2020) Influences of Printing Pattern on Mechanical Performance of Three-Dimensional-Printed Fiber-Reinforced Concrete , 3D Printing and Additive Manufacturing, 1(February), pp. 1-17

	A. Anton, L. Reiter, T. Wangler, V. Frangez, R. J. Flatt, and B. Dillenburger (2021) A 3D Concrete Printing Prefabrication Platform for Bespoke Columns , Automation in Construction 122: 103467

	Ana Anton, Lex Reiter, Timothy Wangler, Valens Frangez, Robert J. Flatt, and Benjamin Dillenburger (2021) A 3D Concrete Printing Prefabrication Platform for Bespoke Columns , Automation in Construction 122 (Feb.): 103467. https://doi.org/10.1016/j. autcon.2020.103467

	Ana Anton, Lex Reiter, Timothy Wangler, Valens Frangez, Robert J. Flatt, and Benjamin Dillenburger (2021) A 3D Concrete Printing Prefabrication Platform for Bespoke Columns , Automation in Construction 122 (February): 103467

	Anane W, Iordanova I. & Ouellet-Plamondon C, (2021) The use of BIM for Robotic 3d Concrete printing , CSCE 2021 Annual Conference pp 325-336

	Anton, A., Reiter, L., Wangler, T., Frangez, V., Flatt, R. J., & Dillenburger, B. (2021) A 3D Concrete Printing Prefabrication Platform for Bespoke Columns , Automation in Construction, 122, 13467. Available at: https://doi.org/1.116/j.autcon.22.13467

	Bastola, A.K., Rodriguez, N., Behl, M., Soffiatti, P., Rowe, N.P. and Lendlein, A., (2021) Cactus-inspired design principles for soft robotics based on 3D printed hydrogelelastomer systems , Materials & Design, 202, p.109515

	Bedarf P, Dutto A, Zanini M, et al (2021) Foam 3D printing for construction: A review of applications, materials, and processes , Autom Constr 2021; 130: 103861

	Bedarf P, Martinez Schulte D, Senol A, et al (2021) Robotic 3D Printing of Mineral Foam for a Lightweight Composite Facade Shading Panel , Proceedings of the 26th International Conference of the Association for Computer-Aided. Architectural Design Research in Asia. Hong Kong: CAADRIA, 2021, pp. 603–612

	Breseghello, L. Sanin, S. Naboni, R, (2021a) Toolpath Simulation, Design and Manipulation in Robotic 3D Concrete Printing , A. Globa, J. van Ameijde, A. Fingrut, N. Kim, & T. T. S. Lo (Eds.), Projections - Proceedings of the 26th International Conference of the Association for Computer-Aided Architectural Design ResearchAsia, CAADRIA 2021, The Association for Computer-Aided Architectural Design ResearchAsia (CAADRIA), 623-632

	Breseghello, L., Naboni, R. (2021b) Adaptive Toolpath: Enhanced Design and Process Control for Robotic 3DCP , Gerber, D., Pantazis, E., Bogosian, B., Nahmad, A., Miltiadis, C. (eds) Computer-Aided Architectural Design. Design Imperatives: The Future is Now. CAAD Futures 2021. CommunicationsComputer and Information Science, vol 1465. Springer, Singapore. https://doi.org/10.1007/978-981-19-1280-1_19Breseghello, L., & Naboni, R. (2022). Toolpath-based design for 3D concrete printing of carbon-efficient architectural structures. Additive Manufacturing, 56, 102872. https://doi.org/10.1016/j.addma.2022.10287Buswell, R., Kinnell, P., Xu, J., Hack, N., Kloft, H., Maboudi, M., Gerke, M., Massin, P., Grasser, G., Wolfs, R., & Bos, F. (2020). Inspection Methods for 3D Concrete Printing. RILEM Bookseries, 28, 790-803. https://doi.org/10.1007/978-3-030-49916-7_78Daniilidis, K. (1998) Hand-eye calibration using dual quaternions. International Journal of Robotics Research, 18:286-298

	Breseghello, L., Sanin, S., & Naboni, R. (2021) Toolpath Simulation, Design and Manipulation in Robotic 3D Concrete Printing. , Toolpath Simulation, Design and Manipulation in Robotic 3D Concrete Printing. 1. Available at: https://doi.org/1.52842/conf.caadria.221.1.623

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