Dry mixes on the basis of reactive-powder concrete

Leonid Dvorkin; Vitalij Marchuk

doi:10.5937/zasmat2203309D

Autori

Leonid Dvorkin National University of Water and Environmental Engineering, Rivne, Ukraine Autor
Vitalij Marchuk National University of Water and Environmental Engineering, Rivne, Ukraine Autor

DOI:

https://doi.org/10.5937/zasmat2203309D

Ključne reči:

reaktivni praškasti beton, malter, superplastifikator, sastav, svojstva

Apstrakt

U ovom članku su prikazani rezultati eksperimentalnih ispitivanja maltera na bazi suvih mešavina sa reaktivnim praškastim betonom (RPC). Ova vrsta betona može poslužiti ne samo kao konstrukcijski materijal u izgradnji zgrada i objekata već i kao poluproizvod za dobijanje suvih građevinskih mešavina za različite namene. Redispergovani polimerni prah kao i elektrofilterski pepeo prema rezultatima sprovedenih istraživanja mogu se koristiti kao dodatne komponente za pripremu različitih suvih građevinskih mešavina. a izradu kompozicija suvih mešavina korišćeni su statistički modeli dobijeni pomoću matematičkog planiranja eksperimenata.

Reference

Bonneau, O., Lachemi, M., Dallaire, E., Dugat, J., Aitcin, P. (1997) Mechanical properties and durability of two industrial reactive powder concretes.ACI Materials Journal, 94(4): 286-290

https://doi.org/10.14359/310

Cwirzen, A., Penttala, V., Vornanen, C. (2008) Reactive powder based concretes: Mehanical properties, durability and hybrid use with OPC.Cement and Concrete Research, 38(10): 1217

https://doi.org/10.1016/j.cemconres.2008.03.013

Dvorkin, L., Bordyuzhenko, O., Zhitkovsky, V., Kochkarev, D., Marchuk, V. (2020) Reaction-powder concretes and materials based on them. Rivne: NUVGP, p.308 (in Ukrainian)

Dvorkin, L., Dvorkin, O., Ribakov, Y. (2012) Mathematical experiments planning in concrete technology. New York: Nova Science Publishers, 172-172

Dvorkin, L., Zhitkovsky, V., Marchuk, V. (2019) Dry building mixtures using dispersed industrial waste. Moscow: Infra-Engineering, p.312 (in Russian)

Ji, W.Y., An, M.Z., Yan, G.P., Wang, J.M. (2004) Study on reactive powder concrete used in the sidewalk system of the Ginghai-Tibet railway bridge. in: Proceedings of the international workshop on sustainable development and concrete technology, Beijing

Karapuzov, E., Lutz, G., Gerold, H. (2000) Dry building mixes. Kiev: Technika, p.226 (in Russian)

Lee, M.G., Wang, Y.C., Chiu, C.T. (2007) A preliminary study of reactive powder concrete as a new repair material.Construction and Building Materials, 21: 182-189

https://doi.org/10.1016/j.conbuildmat.2005.06.024

Rebentrost, M., Cavill, B. (2006) Reactive powder concrete bridge. in: AustRoads cnference, 1-11

Richard, P., Cheyrezy, M. (1995) Composition of reactive powder concretes.Cement and Concrete Research, 25(7): 1501-1511

https://doi.org/10.1016/0008-8846(95)00144-2

Richard, R., Cheyrezy, M. (1994) Reactive powder concretes with high ductility and 200-800 MPa compressive strength.SCI SP, 144: 507-518

Shaheen, E., Shrive, N.G. (2006) Optimization of mechanical properties and durability of reactive powder concrete.ACI Materials Journal, 103(6): 444-451

https://doi.org/10.14359/18222

Washer, G., Fuchs, P., Graybeal, B., Hartmann, J. (2004) Ultrasonic testing of reactive powder concrete.IEEE Transactions on ultrasonic, ferroelectrics and frequency control, 51(2): 193-201

https://doi.org/10.1109/TUFFC.2004.1320767

Yazici, H., Yardimci, M.Y., Aydin, S., Karabulut, A. (2009) Mechanical properties of reactive powder concrete containing mineral admixtures under different curing regimes.Construction and Building Materials, 23: 1223-1231

https://doi.org/10.1016/j.conbuildmat.2008.08.003