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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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	Axpe, E., Oyen, M. L. (2016) Applications of Alginate-Based Bioinks in 3D Bioprinting , International Journal of Molecular Sciences, 17(12), 1976

	Bader C., Kolb D., Weaver J.C. et al. (2016) Data-driven material modelling with functional advection for 3D printing of materially heterogeneous objects , 3D Print Addit Manuf; 3(2): 71–79

	Bader, C, Kolb, D, Weaver, J and Oxman, N (2016) Data-driven material modeling with functional advection for 3D printing of materially heterogeneous objects , 3D Printing and additive manufacturing, 3(2), pp. 71-80

	Bader, C, Patrick, W, Kolb, D, Hays, S, Keating, S, Sharma, S, Dikovsky, D, Belocon, B, Weaver, J, Silver, P and Oxman, N (2016) Printed, and Biologically Augmented: An Additively Manufactured Microfluidic Wearable , Functionally Templated for Synthetic Microbes 3d Printing And Additive Manufacturing, 3(2), pp. 79-89

	Bader, C., Patrick, W.G., Kolb, D, Hays, S.G., Keating, S., Sharma, S., Dikovsky, D., Belocon, B., Weaver, J.C., Silver, P.A. and Oxman, N. (2016) Grown, Printed, and Biologically Augmented: An Additively Manufactured Microfluidic Wearable, Functionally Templated for Synthetic Microbes , 3D Printing and Additive Manufacturing, 3(2), pp. 79-89

	Bader, C., W.G. Patrick, D. Kolb, S.G. Hays, S. Keating, S. Sharma, D. Dikovsky, B. Belocon, J.C. Weaver, P.A. Silver, and N. Oxman. (2016) Grown, printed, and biologically augmented: An additively manufactured microfluidic wearable, functionally templated for synthetic microbes , 3D Printing and Additive Manufacturing 3(2): 79-89

	Bailey, C.P. (2016) G-Code Generation for Multi-Process 3D Printing , Open Access Theses & Dissertations. 602

	Bassier, M, Vergauwen, M and Van Genechten, B (2016) Automated semantic labelling of 3D vector models for scan-to-BIM , Proceedings of the 4th Annual International Conference on Architecture and Civil Engineering (ACE 2016), Singapore, pp. 25-26

	Bassier, M, Vergauwen, M and van Genechten, B (2016) Automated Semantic Labelling of 3D Vector Models for Scan-to-BIM , Proceedings of the 4th Annual International Conference on Architecture and Civil Engineering (ACE2016), Singapore, pp. 93-100

	Bedarf, P., Szabo, A., Zanini, M. & Dillenburger, B. (2021) Machine Sensing for Mineral Foam 3D Printing , International Conference on Intelligent Robots and Systems: Workshop Robotic Fabrication, IROS 2021. https://doi.org/10.3929/ethz-b-000506097BubbleDeck. (2021). The Original Voided Slab. Retrieved May 11 2021, from https://www.bubbledeck.comCobiax. (2021). Voided flat plate slab technologies available worldwide. Retrieved May 11 2021, from https://www.cobiax.com/intl/en/Compas. (2020). Retrieved May 11 2021, from https://compas.dev/index.htmlFernández-Jiménez, A., & Palomo, A. (2005). Composition and microstructure of alkali activated fly ash binder: Effect of the activator. Cement and Concrete Research, 35(10), 1984–1992. https://doi.org/10.1016/j.cemconres.2005.03.003Furet, B., Poullain, P., & Garnier, S. (2019). 3D printing for construction based on a complex wall of polymer-foam and concrete. Additive Manufacturing, 28, 58–64. https://doi.org/10.1016/j.addma.2019.04.002Georgopoulos, C., & Minson, A. (2014). Sustainable concrete solutions. Wiley-Blackwell.Halpern, A. B., Billington, D. P., & Adriaenssens, S. (2013). The Ribbed Floor Slab Systems of Pier Luigi Nervi. Proceedings of the International Association for Shell and Spatial Structures (IASS), 7. http://formfindinglab.princeton.edu/wp-content/uploads/2011/09/Nervi_ribbed_floors.pdfHansemann, G., Schmid, R., Holzinger, C., Tapley, J. P., Peters, S., Trummer, A., & Kupelwieser, H. (2021). Lightweight Reinforced Concrete Slab: 130 different 3D printed voids. CPT Worldwide - Construction Printing Technology, 2021(2), 68.Jipa, A., Calvo Barentin, C., Lydon, G., Rippmann, M., Chousou, G., Lomaglio, M., Schlüter, A., Block, P., & Dillenburger, B. (2019). 3D-Printed Formwork for Integrated Funicular Concrete Slabs. Proceedings of the IASS Annual Symposium 2019, 10. https://www.researchgate.net/publication/335175125_3D-Printed_Formwork_for_Integrated_Funicular_Concrete_SlabsJipa, A., & Dillenburger, B. (2021). 3D Printed Formwork for Concrete: State-of-the-Art, Opportunities, Challenges, and Applications. 3D Printing and Additive Manufacturing, 00, 24. https://doi.org/10.1089/3dp.2021.0024Keating, S. J., Leland, J. C., Cai, L., & Oxman, N. (2017). Toward site-specific and self-sufficient robotic fabrication on architectural scales. Science Robotics, 2(5), 1-15. https://doi.org/10.1126/scirobotics.aam8986Liew, A., López, D. L., Van Mele, T., & Block, P. (2017). Design, fabrication and testing of a prototype, thin-vaulted, unreinforced concrete floor. Engineering Structures, 137, 323–335. https://doi.org/10.1016/j.engstruct.2017.01.075Palomo, A., Grutzeck, M. W., & Blanco, M. T. (1999). Alkali-activated fly ashes: A cement for the future. Cement and Concrete Research, 29(8), 1323–1329. https://doi.org/10.1016/S0008-8846(98)00243-9UN Environment Programme. (2020). Global Status Report for Buildings and Construction. Retrieved May 11 2021, from https://globalabc.org/sites/default/files/inline-files/2020%20Buildings%20GSR_FULL%20REPORT.pdfXu, H., & Van Deventer, J. S. J. (2000). The geopolymerisation of alumino-silicate minerals. International Journal of Mineral Processing, 59(3), 247–266. https://doi.org/10.1016/S0301-7516(99)00074-5Zhao, H., Gu, F., Huang, Q.-X., Garcia, J., Chen, Y., Tu, C., Benes, B., Zhang, H., Cohen-Or, D., & Chen, B. (2016). Connected fermat spirals for layered fabrication. ACM Transactions on Graphics, 35(4), 1–10. https://doi.org/10.1145/2897824.2925958

	Bertling, J and Rommel, S (2016) A Critical View of 3D Printing Regarding Industrial Mass Customization Versus Individual Desktop Fabrication , Ferdinand, JPP (eds), The Decentralized and Networked Future of Value Creation 3D Printing and its Implications for Society, Industry, and Sustainable Development, Springer

	Beyhan, F., & Arslan Selcuk, S. (2018) 3D Printing in Architecture: One Step Closer to a Sustainable Built Environment , Lecture Notes in Civil Engineering, 253–268. https://doi.org/10.1007/978-3-319-63709-9_20Ching-Shun, T. (2006). Smart Structures: Designs with Rapid Prototyping. Progress in Design & Decision Support Systems in Architecture and Urban Planning, 415–429. Retrieved from http://papers.cumincad.org/data/works/att/ddss2006-pb-415.content.pdfDefacto (2016) The Rise Pavilion [Project] Guinness World Record: Largest 3D Printed Structure 2016 Retrieved from https://3dprint.com/147981/defacto-rise-pavilion-guinness/

	Biljecki, F, Ledoux, H and Stoter, J (2016) An improved LOD specification for 3D building models , Computers, Environment and Urban Systems, 59, pp. 25-37

	Biljecki, F., Ledoux, H. and Stoter, J. (2016) An improved LOD specification for 3D building models. , Computers, Environment, and Urban Systems, 59, pp. 25-37

	Biljecki, F., Ledoux, H., and Stoter, J. (2016) An improved LOD specification for 3D building models , Computers, Environment and Urban Systems, pages 25-37

	Borg Costanzi, C. (2016) 3d Printing Concrete onto Flexible Surfaces , Master’s thesis, TU Delft. uuid:84d36c2e-8969-4432-b1a5-c9c02e6304f6

	Bos, F, Wolfs, R and Ahmed, Z (2016) Additive manufacturing of concrete in construction: potentials and challenges of 3D concrete printing , Virtual and Physical Prototyping, 11(3), pp. 209-225

	Bos, F, Wolfs, R, Ahmed, Z and Salet, T (2016) Additive manufacturing of concrete in construction: potentials and challenges of 3D concrete printing , Virtual and Physical Prototyping, 11(3), pp. 209-225

	Bos, F, Wolfs, R, Ahmed, Z and Salet, T (2016) Additive manufacturing of concrete in construction: potentials and challenges of 3D concrete printing , Virtual and Physical Prototyping, 11(3), pp. 209-225

	Bos, F, Wolfs, R, Ahmed, Z and Salet, T (2016) Additive manufacturing of concrete in construction: potentials and challenges of 3D concrete printing , Virtual and Physical Prototyping, 11(3), pp. 209-225

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