[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2017.63.2.207

Numerical and theoretical modelling of low velocity impact on UHPC panels

Prem, Prabhat R. (CSIR-Structural Engineering Research Centre)
Verma, Mohit (CSIR-Structural Engineering Research Centre)
Ramachandra Murthy, A. (CSIR-Structural Engineering Research Centre)
Rajasankar, J. (CSIR-Structural Engineering Research Centre)
Bharatkumar, B.H. (CSIR-Structural Engineering Research Centre)

Publication Information

Structural Engineering and Mechanics / v.63, no.2, 2017 , pp. 207-215 More about this Journal

Abstract

The paper presents the studies carried out on low velocity impact of Ultra high performance concrete (UHPC) panels of size $350{\times}350{\times}10mm^3$ and $350{\times}350{\times}15mm^3$ . The panels are cast with 2 and 2.5% micro steel fibre and compared with UHPC without fiber. The panels are subjected to low velocity impact, by a drop-weight hemispherical impactor, at three different energy levels of 10, 15 and 20 J. The impact force obtained from the experiments are compared with numerically obtained results using finite element method, theoretically by energy balance approach and empirically by nonlinear multi-genetic programming. The predictions by these models are found to be in good coherence with the experimental results.

Keywords

ultra high performance concrete; low velocity impact; finite element; energy balance model; empirical relation;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Schmidt, M. and Fehling, E. (2005), "Ultra-high-performance concrete: research, development and application in Europe", ACI Special Publication, 228, 51-78.
2	Searson, D.P. (2014), "GPTIPS 2: an open-source software platform for symbolic data mining", arXiv preprint arXiv:1412.4690.
3	Searson, D.P., Leahy, D.E. and Willis, M.J. (2010), "GPTIPS: an open source genetic programming toolbox for multigene symbolic regression", Proceedings of the International Multi Conference of Engineers and Computer Scientists, Volume 1, Citeseer.
4	Shivakumar, K., Elber, W. and Illg, W. (1983), "Prediction of impact force and duration during low velocity impact on circular composite laminates", J. Appl. Mech., 52(3), 674-680. DOI
5	Sohel, K.M.A., Richard, L., Alwis, W.A.M. and Paramasivam, P. (2003), "Experimental investigation of low-velocity impact characteristics of steel-concrete-steel sandwich beams", Steel Compos. Struct., 3(4), 289-306. DOI
6	Sovjak, R., Vavrin k, T., Zatloukal, J., Maca, P., Micunek, T. and Frydryn, M. (2015), "Resistance of slim UHPFRC targets to projectile impact using in-service bullets", Int. J. Impact Eng., 76, 166-177. DOI
7	Tai, Y.S. andWang, I.T. (2011), "Elucidating the mechanical behavior of ultra-high-strength concrete under repeated impact loading", Struct. Eng. Mech., 37(1), 1-15. DOI
8	Thiyahuddin, I., Gu, Y., Thambiratnam, D. and Gudimetla, P. (2012), "Impact & energy absorption of road safety barriers by coupled SPH/FEM", Int. J. Protect. Struct., 3(3), 257-273. DOI
9	Verma, M., Prem, P.R., Rajasankar, J. and Bharatkumar, B. (2016), "On low-energy impact response of ultra-high performance concrete (UHPC) panels", Mater. Des., 92, 853-865. DOI
10	Wille, K., Naaman, A.E. and Parra-Montesinos, G.J. (2011), "Ultra-high performance concrete with compressive strength exceeding 150 MPa (22 ksi): A simpler way", ACI Mater. J., 108(1), 34-46.
11	Xu, J., Wu, C., Xiang, H., Su, Y., Li, Z.X., Fang, Q., Hao, H., Liu, Z., Zhang, Y. and Li, J. (2016), "Behaviour of ultra high performance fibre reinforced concrete columns subjected to blast loading", Eng. Struct., 118, 97-107. DOI
12	Yoo, D.Y., Banthia, N., Kim, S.W. and Yoon, Y.S. (2015), "Response of ultra-high-performance fiber reinforced concrete beams with continuous steel reinforcement subjected to lowvelocity impact loading", Compos. Struct., 126, 233-245. DOI
13	Yu, R., Spiesz, P. and Brouwers, H. (2014), "Static properties and impact resistance of a green Ultra-High Performance Hybrid Fibre Reinforced Concrete (UHPHFRC): experiments and modelling", Constr. Build. Mater., 68, 158-171. DOI
14	Zhang, X., Ruiz, G. and Yu, R.C. (2010), "A new drop-weight impact machine for studying fracture processes in structural concrete", Strain, 46(3), 252-257. DOI
15	Gandomi, A.H. and Alavi, A.H. (2012), "A new multi-gene genetic programming approach to nonlinear system modeling. Part I: materials and structural engineering problems", Neur. Comput. Appl., 21(1), 171-187. DOI
16	Chen, L. and Graybeal, B.A. (2012), "Modeling structural performance of ultrahigh performance concrete I-girders", J. Bridge Eng., 17(5), 754-764. DOI
17	Chuzel-Marmot, Y., Ortiz, R. and Combescure, A. (2011), "Three dimensional SPH-FEM gluing for simulation of fast impacts on concrete slabs", Comput. Struct., 89(23), 2484-2494. DOI
18	Farnam, Y., Mohammadi, S. and Shekarchi, M. (2010), "Experimental and numerical investigations of low velocity impact behavior of high-performance fiber-reinforced cement based composite'', Int. J. Impact Eng., 37(2), 220-229. DOI
19	Habel, K. and Gauvreau, P. (2008), "Response of ultra-high performance fiber reinforced concrete (UHPFRC) to impact and static loading", Cement Concrete Compos., 30(10), 938-946. DOI
20	Jankowiak, T. and Lodygowski, T. (2005), "Identification of parameters of concrete damage plasticity constitutive model", Found. Civil Environ. Eng., 6(1), 53-69.
21	Maca, P., Sovjak, R. and Konvalinka, P. (2014), "Mix design of UHPFRC and its response to projectile impact", Int.l J. Impact Eng., 63, 158-163. DOI
22	Maca, P., Sovjak, R. and Vavrinik, T. (2013), "Experimental investigation of mechanical properties of UHPFRC", Procedia Eng., 65, 14-19. DOI
23	Prem, P.R., Bharathkumar, B. and Nagesh, R.I. (2012), "Mechanical properties of ultra high performance concrete", World Acad. Sci. Eng. Technol., 68, 1969-1978.
24	Mechtcherine, V., Millon, O., Butler, M. and Thoma, K. (2011), "Mechanical behaviour of strain hardening cement-based composites under impact loading", Cement Concrete Compos., 33(1), 1-11. DOI
25	Murthy, A.R., Karihaloo, B.L., Iyer, N.R. and Prasad, B.R. (2013), "Determination of size independent specific fracture energy of concrete mixes by two methods", Cement Concrete Res., 50, 19-25. DOI
26	Murthy, A.R., Kumar, V.R., Gopinath, S., Prem, P.R., Iyer, N.R. and Balakrishnan, R. (2014), "Structural performance of precast and cast-in-situ ultra high strength concrete sandwich panel", Int. J. Comput. Mater. Continua, 44(1), 59-72.
27	Naaman, A., Toledo Filho, R., Silva, F., Koenders, E. and Fairbairn, E. (2011), "Half a century of progress leading to ultra-high performance fiber reinforced concrete: part 1 overall review", Proceedings of the 2nd International RILEM Conference, 17-26.
28	Prem, P.R. and Murthy, A.R. (2016), "Acoustic emission and flexural behaviour of RC beams strengthened with UHPC overlay", Constr. Build. Mater., 123, 481-492. DOI
29	Prem, P.R., Bharatkumar, B. and Iyer, N.R. (2013), "Influence of curing regimes on compressive strength of ultra high performance concrete", Sadhana, 38(6), 1421-1431. DOI
30	Abrate, S. (1991), "Impact on laminated composite materials", Appl. Mech. Rev., 44(4), 155-90. DOI
31	Ambily, P., Umarani, C., Ravisankar, K., Prem, P.R., Bharatkumar, B. and Iyer, N.R. (2015), "Studies on ultra high performance concrete incorporating copper slag as fine aggregate", Constr. Build. Mater., 77, 233-240. DOI
32	Bazant, Z.P. and Planas, J. (1997), Fracture and Size Effect in Concrete and Other Quasi Brittle Materials, Volume 16, CRC Press.
33	Bharatkumar, B., Shah, S., Weiss, J., Kovler, K., Marchand, J. and Mindess, S. (2004), "Impact resistance of hybrid fiber reinforced mortar", International RILEM Symposium on Concrete Science and Engineering: A Tribute to Arnon Bentur, RILEM Publications SARL.
34	Bindiganavile, V. and Banthia, N. (2001), "Polymer and steel fiber-reinforced cementitious composites under impact loading? Part 2: flexural toughness", ACI Mater. J., 98(1), 17-24.
35	Schmidt, M. (2012), "Sustainable building with ultra-highperformance concrete (UHPC) coordinated research program in Germany", Proceedings of Hipermat 2012 3rd International Symposium on UHPC and Nanotechnology for High Performance Construction Materials, Kassel University Press, Kassel.
36	Prem, P.R., Murthy, A.R. and Bharatkumar, B.H. (2015a), "Influence of curing regime and steel fibres on the mechanical properties of UHPC", Mag. Concrete Res., 67(18), 988-1002. DOI
37	Prem, P.R., Murthy, A.R., Ramesh, G., Bharatkumar, B. and Iyer, N.R. (2015b), "Flexural behaviour of damaged RC beams strengthened with ultra high performance concrete", Adv. Struct. Eng., 2057-2069.
38	Rokugo, K., Kanda, T., Yokota, H. and Sakata, N. (2009), "Applications and recommendations of high performance fiber reinforced cement composites with multiple fine cracking (HPFRCC) in Japan", Mater. Struct., 42(9), 1197-1208. DOI