Optimization of Shoring/Reshoring Levels in High-Rise Building Construction

ACI 209R-92. (1997). Predictions of Creep, Shrinkage and Temperature Effects in Concrete Structures. Committee 209 Report, American Concrete Institute, Farmington Hills, MI, USA, p. 4.Search in Google Scholar

ACI 347.2R-05. (2005). Guide for Shoring/Reshoring of Concrete Multistory Buildings. Committee 347 Report, American Concrete Institute, Farmington Hills, MI, USA, p. 9.Search in Google Scholar

Al-Tabtabai, A. L., Alex, H. A. P., & Jemes, R. (1999). Slab formwork design using genetic algorithm. Journal of National Research Council Canada, 8(3), pp. 2407-2418.Search in Google Scholar

Al-Tabtabai, H. M. (2000). Genetic algorithm optimal model for slab formwork cost and design. Engineering Journal of the University of Qatar, 13, pp. 177-192.Search in Google Scholar

ANSI10.9. (2003). Safety Requirements for Concrete and Masonry Work - American National Standard for Construction and Demolition Operations, p. 11.Search in Google Scholar

Azkune, M., Puente, I., & Santilli, A. (2010). Shore overloads during shoring removal. Engineering Structures, 32, pp. 3629-3638.10.1016/j.engstruct.2010.08.007Search in Google Scholar

Beeby, A. W. (2001). The forces in backprops during construction of flat slab structures. Structures and Buildings, 146(3), pp. 307-317.10.1680/stbu.2001.146.3.307Search in Google Scholar

Calderón, P. A., Alvarado, Y. A., & Adam, J. M. (2011). A new simplified procedure to estimate loads on slabs and shoring during the construction of multi-storey buildings. Engineering Structures, 33, pp. 1565-1575.10.1016/j.engstruct.2011.01.027Search in Google Scholar

Coello, C. A. C., Christiansen, A. D., & Hernández, F. S. (1997). A simple genetic algorithm for the design of reinforced concrete beams. Engineering with Computers, 13, pp. 185-196.10.1007/BF01200046Search in Google Scholar

Dongping, F., Haifeng, X., Xiaoming, W., Chuanmin, Z., & Tingsheng, Z. (2009). Load distribution assessment of reinforced concrete buildings during construction with structural characteristic parameter approach. Tsinghua Science and Technology, 14(6), pp. 746-755.10.1016/S1007-0214(09)70145-2Search in Google Scholar

DSR 2016. (2016). Delhi Schedule of Rates. Central Public Works Department, Government of India, New Delhi, India.Search in Google Scholar

Duan, M. Z., & Chen, W. F. (1995). Improved Simplified Method for Slab and Shore Load Analysis During Construction. Purdue University, West Lafayette, IN, USA.Search in Google Scholar

Fang, D. P., Zhu, H. Y., Geng, C. D., & Liu, X. L. (2001). On-site measurements of structural characteristics of reinforced concrete buildings during construction. ACI Journal, 98(2), pp. 157-163.10.14359/10183Search in Google Scholar

Grundy, P., & Kabaila, A. (1963). Construction loads on slabs with shored formwork in multi-story buildings. ACI Journal Proceedings, 60(12), pp. 1729-1738.10.14359/7911Search in Google Scholar

Hanna, A. S., & Senouci, A. B. (1995). Design optimization of concrete-slab forms. Journal of Construction Engineering and Management, 121(2), pp. 215-221.10.1061/(ASCE)0733-9364(1995)121:2(215)Search in Google Scholar

IS 456:2000. (2000). Indian Standard Plain and Reinforced Concrete - Code of Practice. Bureau of Indian Standards (BIS), New Delhi, India.Search in Google Scholar

Jha, K. N. (2011). Formwork for Concrete Structures. Tata McGraw Hill Publisher, Delhi, India.Search in Google Scholar

Kaveh, A., & Behnam, A. F. (2012). Cost optimization of a composite floor system, one-way waffle slab, and concrete slab formwork using a charged system search algorithm. Scientia Iranica Transactions A: Civil Engineering, 19(3), pp. 410-416.10.1016/j.scient.2012.04.001Search in Google Scholar

Kaveh, A., & Shakouri Mahmud Abadi, A. (2010). Harmony search algorithm for optimum design of slab formwork. Iranian Journal of Science and Technology Transaction B: Engineering, 34(4), pp. 335-351.Search in Google Scholar

Liu, X. L., Lee, H. M., & Chen, W. F. (1988). Analysis of construction loads on slabs and shores by personal computer. American Concrete Institute, 10, pp. 21-30.Search in Google Scholar

Malasri, S., Halijan, D. A., & Keough, M. L. (1994). Concrete beam design optimization with genetic algorithms. Proceedings Arkansas Academy of Science, 48, pp. 111-115.Search in Google Scholar

Nawy, E. G. (2008). Concrete Construction Engineering Handbook. CRC Press, Taylor & Francis, FL.10.1201/9781420007657Search in Google Scholar

Rao, S. S. (1973). Minimum cost design of concrete beams with a reliability based constraint. Building Science, 8, pp. 33-38.10.1016/0007-3628(73)90044-3Search in Google Scholar

Sahab, M. G., Ashour, A. F., & Toropov, V. V. (2005). Cost optimization of reinforced concrete flat slab buildings. Engineering Structures, 27, pp. 313-322.10.1016/j.engstruct.2004.10.002Search in Google Scholar

Senouci, A. B., & Al-Ansari, M. S. (1996). Optimum design of concrete slab forms. Engineering Journal of the University of Qatar, 9, pp. 79-93.Search in Google Scholar