How to cite this paper
Tahmoorian, F., Nemati, S & Soleimani, A. (2020). A state of the art on the structural performance of fabric formwork systems.Engineering Solid Mechanics, 8(1), 49-62.
Refrences
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Bak, A., Shepherd, P., & Richens, P. (2012, June). Intuitive interactive form finding of optimised fabric-cast concrete. In Second International Conference on Flexible Formwork (icff2012). University of Bath.
Belton, S. (2012). The application of actively tensioned membranes as formwork for complex curvatures in concrete structures. WIT Transactions on The Built Environment, 124, 27-38.
Benjamin Kromoser, J. K. (2012). Using Ice to Build Shell Structures. 10th International Conference and Exhibition on Performance of Ships and Structures in Ice 2012, ICETECH 2012. Banff, AB; Canada: 403-410.
Bhooshan, S., & El Sayed, M. (2012). Sub-division surfaces in architectural form finding and fabric forming. In Proceedings of the Second International Conference of Flexible Formwork (ICFF 2012), BRE CICM, University of Bath, Claverton Down.
Brennan, J., Pedreschi, R., Walker, P., & Ansell, M. (2013). The potential of advanced textiles for fabric formwork. Institute of Civil Engineering (ICE)-Construction Materials Journal, 166(4), 229-237..
BRG (2012). Computational modelling of fabric formwork. 2nd International Conference on Flexible Formworks.
Burak, E. E., Loboda, A. V., & Tkachenko, A. N. (2010). MATHEMATICAL MODELING OF THE OPTIMUM MODES OF CONCRETING WITH THE USE OF PNEUMATIC FORMWORK. Scientific Herald of the Voronezh State University of Architecture and Civil Engineering. Construction and Architecture, (4), 64-75.
Cauberg, N., Tysmans, T., Adriaenssens, S., Wastiels, J., Mollaert, M., & Belkassem, B. (2012). Shell elements of textile reinforced concrete using fabric formwork: a case study. Advances in Structural Engineering, 15(4), 677-689.
Jepsen, C. R., Kristensen, M. K., & Kirkegaard, P. H. (2010). Flexible mould for precast concrete elements. In International Symposium of the International Association for Shell and Spatial Structures: IASS 2010 (pp. 2726-2737). China Architecture & Building Press..
Coar, L., Cox, M. S., & Adriaenssens, S. M. (2018). Seeking congruency in digital optimisation and constructability in fabric formed ice shells utilising bending active frames. International Journal of Rapid Manufacturing, 7(2-3), 186-202.
Coar, L., Mueller, C., Laet, L. D., Hare, J., Wiese, K., & Oberlin, S. (2016, September). Fabrigami: Design and fabrication of an origami-inspired ice and fabric shell. In Proceedings of IASS Annual Symposia (Vol. 2016, No. 1, pp. 1-10). International Association for Shell and Spatial Structures.
Culver, R., Koerner, J., & Sarafian, J. (2016). Fabric Forms: The Robotic Positioning of Fabric Formwork. In Robotic Fabrication in Architecture, Art and Design 2016 (pp. 106-121). Springer.
Delijani, F. (2010). The evaluation of changes in concrete properties due to fabric formwork.
Delijani, F., West, M., & Svecova, D. (2015). The evaluation of change in concrete strength due to fabric formwork. Journal of Green Building, 10(2), 113-133.
Echenagucia, T. M., Pigram, D., Liew, A., Van Mele, T., & Block, P. (2019, April). A cable-net and fabric formwork system for the construction of concrete shells: Design, fabrication and construction of a full scale prototype. In Structures (Vol. 18, pp. 72-82). Elsevier.
Feng, Q., Wu, X. G., & Zhao, B. D. (2013). Study and Application of Permeability Formwork to Marine Concrete. In Applied Mechanics and Materials (Vol. 438, pp. 333-337). Trans Tech Publications.
Foster, R. (2010). Form finding and analysis of fabric formed concrete beams.
Foster, R. M., & Ibell, T. J. (2016, November). A numerical solution for the shape of fabric-formed concrete structures. Structures, 8, 17-24.
Garbett, J., Darby, A. P., & Ibell, T. J. (2010). Optimised beam design using innovative fabric-formed concrete. Advances in Structural Engineering, 13(5), 849-860.
Hashemian, F. K. (2012). Structural behaviour and optimization of moment-shaped reinforced concrete beams, University of Manitoba (Canada).
Hawkins, W., Orr, J., Shepherd, P., & Ibell, T. (2016). Fabric formed concrete: physical modelling for assessment of digital form finding methods.
Hawkins, W. J., Herrmann, M., Ibell, T. J., Kromoser, B., Michaelski, A., Orr, J. J., ... & Veenendaal, D. (2016). Flexible formwork technologies–a state of the art review. Structural Concrete, 17(6), 911-935.
Hawkswood, M. G. (2012). Fabric formwork systems used in marine construction. Proceedings of The Second International Conference on Flexible Formwork, University of Bath, UK.
Huijben, F., Van Herwijnen, F., & Nijsse, R. (2011, December). Concrete Shell Structures Revisited: Introducing A New ‘Low-Tech’Construction Method Using Vacuumatics Formwork. In Structural Membranes 2011: V International Conference on Textile Composites and Inflatable Structures.
Huijben, F., van Herwijnen, F., & Nijsse, R. (2012). 14 Structural Morphology of VACUUMATICS 3D Formwork Systems: Constructing Thin Concrete Shells with ‘Nothing’. In conference; 2nd International Conference on Flexible Formwork; 2012-06-27; 2012-06-29 (pp. 154-163). University of Bath.
Ibell, T., Orr, J., Kostova, K., Darby, A., & Evernden, M. (2013). Extraordinary possibilities for future concrete structures. The IES Journal Part A: Civil & Structural Engineering, 6(4), 239-248.
Ioannou, S., Badr, A., Kostova, K., Paine, K., & Ibell, T. (2016). Utilization of fabric formwork for improving the durability of concrete from supersulfated cement. In Key Engineering Materials (Vol. 711, pp. 615-621). Trans Tech Publications.
Kostova, K., Ibell, T. J., Darby, A. P., & Evernden, M. (2012, June). Advanced composite reinforcement for fabric-formed structural elements. In Second International Conference on Flexible Formwork (icff2012) (pp. 200-210). The BRE Centre for Innovative Construction Materials.
Kostova, K. Z., Ibell, T. J., Darby, A. P., & Evernden, M. C. (2013, December). Behaviour of fabric-formed concrete beams reinforced with FRP bars. In Advanced Composites in Construction 2013, ACIC 2013-Conference Proceedings (pp. 286-297).
Kostova, K., Ibell, T., Darby, A., & Evernden, M. (2016, August). Using fabric to shape appropriate concrete structures. In Proceedings of the Fourth Conference on Sustainable Construction Materials and Technologies SCMT4(p. S174).
Kromoser, B., & Huber, P. (2016). Pneumatic formwork systems in structural engineering. Advances in Materials Science and Engineering, 2016.
Kromoser, B., & Kollegger, J. (2015). Application areas for pneumatic forming of hardened concrete. Journal of the International Association for Shell and Spatial Structures, 56(3), 187-198.
Kromoser, B., & Kollegger, J. (2015). Pneumatic forming of hardened concrete–building shells in the 21st century. Structural Concrete, 16(2), 161-171.
Lee, D., Hong, W. K., Kim, J. T., & Kim, S. (2015). Conceptual study of production technology of free-form concrete segments. International Journal of Engineering and Technology, 7(4), 321.
Lee, S. H. (2011). Study of construction methodology and structural behaviour of fabric-formed form-efficient reinforced concrete beam.
Liew, A., Stürz, Y. R., Guillaume, S., Van Mele, T., Smith, R. S., & Block, P. (2018). Active control of a rod-net formwork system prototype. Automation in Construction, 96, 128-140.
Menez, M. H. (2016). Efficiency of a fabric formed concrete slab (Doctoral dissertation, Massachusetts Institute of Technology).
Nemati, S., Rashidi, M., & Samali, B. (2017). Decision making on the optimised choice of pneumatic formwork textile for foam-filled structural composite panels. International Journal of GEOMATE 13(39), 220-228.
Nemati, S., Sharafi, P., Samali, B., Aliabadizadeh, Y., & Saadati, S. (2018). Non-reinforced foam filled modules for rapidly assembled post disaster housing. International Journal of Geomate, 14(45), 151-161.
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Orr, J., Darby, A., Ibell, T., & Evernden, M. (2011). Fibre reinforced polymer grids as shear reinforcement in fabric formed concrete beams.
Orr, J. J., Darby, A. P., Ibell, T. J., & Evernden, M. C. (2011b). Innovative reinforcement for fabric formed concrete structures.
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Orr, J., Darby, A., Ibell, T., & Evernden, M. (2012c). Fabric formwork for ultra high performance fibre reinforced concrete structures.
Orr, J., Darby, A., Ibell, T., & Evernden, M. (2013). Durability enhancements using fabric formwork. Magazine of Concrete Research, 65(20), 1236-1245.
Orr, J. J., Ibell, T. J., & Darby, A. P. (2010). Innovative concrete structures using fabric formwork. Advances and Trends in Structural Engineering, Mechanics and Computation, 234.
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Yang, X., Loh, P., & Leggett, D. (2019). Robotic variable fabric formwork. Journal of Computational Design and Engineering, 6(3), 404-413.
Bak, A., Shepherd, P., & Richens, P. (2012, June). Intuitive interactive form finding of optimised fabric-cast concrete. In Second International Conference on Flexible Formwork (icff2012). University of Bath.
Belton, S. (2012). The application of actively tensioned membranes as formwork for complex curvatures in concrete structures. WIT Transactions on The Built Environment, 124, 27-38.
Benjamin Kromoser, J. K. (2012). Using Ice to Build Shell Structures. 10th International Conference and Exhibition on Performance of Ships and Structures in Ice 2012, ICETECH 2012. Banff, AB; Canada: 403-410.
Bhooshan, S., & El Sayed, M. (2012). Sub-division surfaces in architectural form finding and fabric forming. In Proceedings of the Second International Conference of Flexible Formwork (ICFF 2012), BRE CICM, University of Bath, Claverton Down.
Brennan, J., Pedreschi, R., Walker, P., & Ansell, M. (2013). The potential of advanced textiles for fabric formwork. Institute of Civil Engineering (ICE)-Construction Materials Journal, 166(4), 229-237..
BRG (2012). Computational modelling of fabric formwork. 2nd International Conference on Flexible Formworks.
Burak, E. E., Loboda, A. V., & Tkachenko, A. N. (2010). MATHEMATICAL MODELING OF THE OPTIMUM MODES OF CONCRETING WITH THE USE OF PNEUMATIC FORMWORK. Scientific Herald of the Voronezh State University of Architecture and Civil Engineering. Construction and Architecture, (4), 64-75.
Cauberg, N., Tysmans, T., Adriaenssens, S., Wastiels, J., Mollaert, M., & Belkassem, B. (2012). Shell elements of textile reinforced concrete using fabric formwork: a case study. Advances in Structural Engineering, 15(4), 677-689.
Jepsen, C. R., Kristensen, M. K., & Kirkegaard, P. H. (2010). Flexible mould for precast concrete elements. In International Symposium of the International Association for Shell and Spatial Structures: IASS 2010 (pp. 2726-2737). China Architecture & Building Press..
Coar, L., Cox, M. S., & Adriaenssens, S. M. (2018). Seeking congruency in digital optimisation and constructability in fabric formed ice shells utilising bending active frames. International Journal of Rapid Manufacturing, 7(2-3), 186-202.
Coar, L., Mueller, C., Laet, L. D., Hare, J., Wiese, K., & Oberlin, S. (2016, September). Fabrigami: Design and fabrication of an origami-inspired ice and fabric shell. In Proceedings of IASS Annual Symposia (Vol. 2016, No. 1, pp. 1-10). International Association for Shell and Spatial Structures.
Culver, R., Koerner, J., & Sarafian, J. (2016). Fabric Forms: The Robotic Positioning of Fabric Formwork. In Robotic Fabrication in Architecture, Art and Design 2016 (pp. 106-121). Springer.
Delijani, F. (2010). The evaluation of changes in concrete properties due to fabric formwork.
Delijani, F., West, M., & Svecova, D. (2015). The evaluation of change in concrete strength due to fabric formwork. Journal of Green Building, 10(2), 113-133.
Echenagucia, T. M., Pigram, D., Liew, A., Van Mele, T., & Block, P. (2019, April). A cable-net and fabric formwork system for the construction of concrete shells: Design, fabrication and construction of a full scale prototype. In Structures (Vol. 18, pp. 72-82). Elsevier.
Feng, Q., Wu, X. G., & Zhao, B. D. (2013). Study and Application of Permeability Formwork to Marine Concrete. In Applied Mechanics and Materials (Vol. 438, pp. 333-337). Trans Tech Publications.
Foster, R. (2010). Form finding and analysis of fabric formed concrete beams.
Foster, R. M., & Ibell, T. J. (2016, November). A numerical solution for the shape of fabric-formed concrete structures. Structures, 8, 17-24.
Garbett, J., Darby, A. P., & Ibell, T. J. (2010). Optimised beam design using innovative fabric-formed concrete. Advances in Structural Engineering, 13(5), 849-860.
Hashemian, F. K. (2012). Structural behaviour and optimization of moment-shaped reinforced concrete beams, University of Manitoba (Canada).
Hawkins, W., Orr, J., Shepherd, P., & Ibell, T. (2016). Fabric formed concrete: physical modelling for assessment of digital form finding methods.
Hawkins, W. J., Herrmann, M., Ibell, T. J., Kromoser, B., Michaelski, A., Orr, J. J., ... & Veenendaal, D. (2016). Flexible formwork technologies–a state of the art review. Structural Concrete, 17(6), 911-935.
Hawkswood, M. G. (2012). Fabric formwork systems used in marine construction. Proceedings of The Second International Conference on Flexible Formwork, University of Bath, UK.
Huijben, F., Van Herwijnen, F., & Nijsse, R. (2011, December). Concrete Shell Structures Revisited: Introducing A New ‘Low-Tech’Construction Method Using Vacuumatics Formwork. In Structural Membranes 2011: V International Conference on Textile Composites and Inflatable Structures.
Huijben, F., van Herwijnen, F., & Nijsse, R. (2012). 14 Structural Morphology of VACUUMATICS 3D Formwork Systems: Constructing Thin Concrete Shells with ‘Nothing’. In conference; 2nd International Conference on Flexible Formwork; 2012-06-27; 2012-06-29 (pp. 154-163). University of Bath.
Ibell, T., Orr, J., Kostova, K., Darby, A., & Evernden, M. (2013). Extraordinary possibilities for future concrete structures. The IES Journal Part A: Civil & Structural Engineering, 6(4), 239-248.
Ioannou, S., Badr, A., Kostova, K., Paine, K., & Ibell, T. (2016). Utilization of fabric formwork for improving the durability of concrete from supersulfated cement. In Key Engineering Materials (Vol. 711, pp. 615-621). Trans Tech Publications.
Kostova, K., Ibell, T. J., Darby, A. P., & Evernden, M. (2012, June). Advanced composite reinforcement for fabric-formed structural elements. In Second International Conference on Flexible Formwork (icff2012) (pp. 200-210). The BRE Centre for Innovative Construction Materials.
Kostova, K. Z., Ibell, T. J., Darby, A. P., & Evernden, M. C. (2013, December). Behaviour of fabric-formed concrete beams reinforced with FRP bars. In Advanced Composites in Construction 2013, ACIC 2013-Conference Proceedings (pp. 286-297).
Kostova, K., Ibell, T., Darby, A., & Evernden, M. (2016, August). Using fabric to shape appropriate concrete structures. In Proceedings of the Fourth Conference on Sustainable Construction Materials and Technologies SCMT4(p. S174).
Kromoser, B., & Huber, P. (2016). Pneumatic formwork systems in structural engineering. Advances in Materials Science and Engineering, 2016.
Kromoser, B., & Kollegger, J. (2015). Application areas for pneumatic forming of hardened concrete. Journal of the International Association for Shell and Spatial Structures, 56(3), 187-198.
Kromoser, B., & Kollegger, J. (2015). Pneumatic forming of hardened concrete–building shells in the 21st century. Structural Concrete, 16(2), 161-171.
Lee, D., Hong, W. K., Kim, J. T., & Kim, S. (2015). Conceptual study of production technology of free-form concrete segments. International Journal of Engineering and Technology, 7(4), 321.
Lee, S. H. (2011). Study of construction methodology and structural behaviour of fabric-formed form-efficient reinforced concrete beam.
Liew, A., Stürz, Y. R., Guillaume, S., Van Mele, T., Smith, R. S., & Block, P. (2018). Active control of a rod-net formwork system prototype. Automation in Construction, 96, 128-140.
Menez, M. H. (2016). Efficiency of a fabric formed concrete slab (Doctoral dissertation, Massachusetts Institute of Technology).
Nemati, S., Rashidi, M., & Samali, B. (2017). Decision making on the optimised choice of pneumatic formwork textile for foam-filled structural composite panels. International Journal of GEOMATE 13(39), 220-228.
Nemati, S., Sharafi, P., Samali, B., Aliabadizadeh, Y., & Saadati, S. (2018). Non-reinforced foam filled modules for rapidly assembled post disaster housing. International Journal of Geomate, 14(45), 151-161.
Orr, J. (2012). Flexible formwork for concrete structures.
Orr, J., Darby, A., Ibell, T., & Evernden, M. (2011). Fibre reinforced polymer grids as shear reinforcement in fabric formed concrete beams.
Orr, J. J., Darby, A. P., Ibell, T. J., & Evernden, M. C. (2011b). Innovative reinforcement for fabric formed concrete structures.
Orr, J. J., Darby, A. P., Ibell, T. J., Evernden, M. C., & Otlet, M. (2011c) Concrete structures using fabric formwork. The Structural Engineer, 89 (8). pp. 20-26.
Orr, J. J., Darby, A., Ibell, T. J., & Evernden, M. (2012a). Optimisation and durability in fabric cast’Double T’beams..
Orr, J., Darby, A., Ibell, T., Evernden, M., & Otlet, M. (2012, September). Design of innovative fabric formed beams in shear. In IABSE Congress Report (Vol. 18, No. 15, pp. 1041-1048). International Association for Bridge and Structural Engineering.
Orr, J., Darby, A., Ibell, T., & Evernden, M. (2012c). Fabric formwork for ultra high performance fibre reinforced concrete structures.
Orr, J., Darby, A., Ibell, T., & Evernden, M. (2013). Durability enhancements using fabric formwork. Magazine of Concrete Research, 65(20), 1236-1245.
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