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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	Newman, U., Ganguli and Shrivastava, S.C. (1984) Flow over spherical inflated buildings , Journal of Wind Engineering and Industrial Aerodynamics 17, pp. 305-327

	Allen, T. (1984) Managing the Flow of Technology , MIT Press

	Banham, R. (1984) The Environments of Large Buildings , Architecture of the Well-Tempered Environment, 2nd ed. Chicago: University of Chicago Press

	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

	Beranek,W.J. (1984) Wind environment around single buildings of rectangular shape, and, Wind environment around building configurations , Institute for Building Materials and Building Structures, Heron Magazine, 1984, 29(1), 30-70

	Himmelblau, C. (1984) Architecture is now: projects, (un)buildings, actions, statements, sketches, commentaries 1968-1983 , London: Thames & Hudson

	Maher, M.L. (1984) A Knowledge-Based Expert System for the Preliminary Design of High Rise Buildings , PhD Thesis (unpublished), Department of Civil Engineering, Carnegie Mellon University (1984)

	Nicolin, P. (1984) Mario Botta: Buildings and project 1961-1983 , New York: Rizzoli

	Ohno, N and Hutchinson, JW (1984) Plastic flow localization due to non-uniform void distribution , Journal of the Mechanics and Physics of Solids, 32, issue 1, pp. 63-85

	Oke, T. R. (1984) Towards a Prescription for the Greater Use of Climatic Principles in Settlement Planning , Energy and Buildings, 1984: 1-10

	Oke, T.R. (1984) Towards a prescription for the greater use of climatic principles in settlement planning , Energy and Buildings 7 : 1-10

	S. Treado, G. Gillette, and T. Kusuda (1984) Daylighting with windows, skylights, and clerestories , Energy and Buildings 6 (4): 319–330

	Baskaran, A and Kashef, A (1996) Investigation of air flow around buildings using computational fluid dynamics techniques , Engineering Structures, 18:11, 861-873, 875

	BLOCKEN B., CARMELIET J., STATHOPOULOS T. (2007) CFD evaluation of wind speed conditions in passages between parallel buildings — effet of wall – function roughness modifications for the atmospheric boundary layer flow , Journal of Thermal Envelope and Building Science, , Vol. 28, N°2, 107-159

	Costes, J.-P.; Evrard, A.; Biot, B.; Keutgen, G.; Daras, A.; Dubois, S.; Lebeau, F.; Courard, L. (2017) Thermal Conductivity of Straw Bales: Full Size Measurements Considering the Direction of the Heat Flow , Buildings https://doi.org/10.3390/buildings7010011

	Evangelisti, L., C. Guattari, and F. Asdrubali (2019) Comparison between heat-flow meter and Air-Surface Temperature Ratio techniques for assembled panels thermal characterization , Energy and Buildings, 203, p. 109441

	Evangelisti, L., C. Guattari, R. De Lieto Vollaro and F. Asdrubali (2020) A methodological approach for heat-flow meter data post-processing under different climatic conditions and wall orientations , Energy and Buildings, 223, p. 110216

	Hadavand M and Yaghoubi M (2008) Thermal behavior of curved roof buildings exposed to solar radiation and wind flow for various orientations , Appl Energy 2008; 85: 663–679

	Hanisch, A., Tolujew, J., Richter, K. & Schulze, T. (2003) Online Simulation of Pedestrian Flow in Public Buildings , Proceedings of the 2003 Winter Simulation Conference,(Eds, Chick, S., Sánchez, P., Ferrin, J. D. and Morrice, D. J.) ACM, Orlando, Florida

	Janssen, W. D., Janssen, W. D., (2013) Pedestrian wind comfort around buildings: Comparison of wind comfort criteria based on whole-flow field data for a complex case study , Building and Environment, 59, pp. 547-562.

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