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Study Concerning Characterization of Some Recycled Concrete Aggregates

Bibliography [1]. Bressi, G., Volpe, G., Pavesi, E. (2011). The production of recycled aggregates from inert waste , ANPAR-Associazione Nazionale Produttori Aggregati Riciclati, Tecnitalia Consultants Milano. Italy: Press Centre of Emilia Romagna-Region [2]. Garbarino, E., Cardu, M. (2008). Tecnologie di riciclaggio: impianti di trattamento ed applicazioni sperimentali d'impiego, INERTCH 2007, supplemento a RECYCLING, 62(8), 146-174. [3]. Union Européenne des Producteurs de Granulats. (2010). Sustainable Development in the European Aggregates

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Temperature influences water sorptivity of soil aggregates

, R.H., Gerke, H.H., Bachmann, J., Goebel, M.-O., 2005. Composition of organic matter fractions for explaining wettability of three forest soils. Soil Sci. Soc. Am. J., 69, 57-66. Feeney, D.S., Hallett, P.D., Rodger, S., Bengough, A.G., White, N.A., Young, I.M., 2006. Impact of fungal and bacterial biocides on microbial induced water repellency in arable soil. Geoderma, 135, 72-80. Fér, M., Kodešová, R., 2012. Estimating hydraulic conductivities of the soil aggregates and their clay-organic coatings using numerical inversion of

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Tensile and erosive strength of soil macro-aggregates from soils under different management system

References Abiven, S., Menasseri, S., Chenu, C., 2009. The effects of organic inputs over time on soil aggregate stability - A literature analysis. Soil Biology and Biochemistry, 41, 1-12. Ananyeva, K., Wang, W., Smucker, A.J.M., Rivers, M.L., Kravchenko, A.N., 2013. Can intra-aggregate pore structures affect the aggregate's effectiveness in protecting carbon? Soil Biology and Biochemistry, 57, 868-875. Bachmann, J. Guggenberger, G., Baumgartl, T., Ellerbrock, R.H., Urbanek, E., Goebel, M.-O., Kaiser, K., Horn

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References Bagampadde U., Wahaab A and Aiban A. S., (1999), “Optimization of Steel Slag Aggregates for Bituminous Mixes in Saudi Arabia” Journal of Materials in Civil Engineering, ASCE, Vol. 11 No. 1,PP. 30-35. Central Pollution Control Board (CPCB) Report (2006-07), “Assessment of Utilization of Industrial Solid Wastes in Cement Manufacturing”, Program Objective Series, Probes/103/2006-07. Irem Z. Y. and Monica P., (2011), “Chemical, Mineralogical and Morphological Properties of Steel Slag”, Journal

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Natural aggregate totally replacement by mechanically treated concrete waste

.html. [4] Cement Concrete and Aggregates Australia. (2008). Use of Recycled Aggregates in Construction. Sydney: Cement Concrete and Aggregates Australia. 14.5.2015, [5] Alexander M. & Mindess S. (2010). Aggregates in Concrete. New York: Taylor & Francis Group. [6] Malesev M., Radonjanin V. & Marinkovic S. (2010). Recycled Concrete as Aggregate for Structural Concrete Production. Sustainability. Vol. 2(5), 1204-1225. [7] Junak J. & Stevulova N. (2013

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Pulp-Capping with Mineral Trioxide Aggregate

References 1. Abedi H., J Ingle. Mineral trioxide aggregate: A review of a new cement. - Calif Dent Assoc J 1995;23:36-39. 2. Agamy H., N. Bakry, M. Mounir, D. Avery. Comparison of mineral trioxide aggregate and formocresol as pulp-capping agents in pulpotomized primary teeth. - Pediatr Dent 2004;26:302-309. 3. Baker GR, Mitchell Df. Topical antibiotic treatment of infected dental pulps of monkeys. - J Dent Res 1969;48:351-355. 4. Barker B. Conservative treatment of cariously exposed vital pulps

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Assessment Gravel Aggregate Reactivity With Alkalis In Relation To Methods Of Test

Concrete Research , 40, 556–562, 2010 8. PN-92/B-06714-46 Mineral aggregates – Testing – Determination of alakaline reactivity by rapid method (in Polish), 9. ASTM C 289-94 Standard Test Method for Potential Alkali Silica Reactivity of Aggregates (Chemical Method), 10. PN-B-06714-34:1991/Az1:1997 Mineral aggregates – Testing – Determination of alakaline reactivity (in Polish), 11. ASTM C 227-10 Standard Test Method for Potential Alkali Reactivity of Cement- Aggregate Combinations (Mortar-Bar Method), 12. ASTM C1260 – 07 Standard Test

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Identification of Reactivity Level in Aggregates from Lithuanian Gravel Quarry

R eferences [1] M. Haugen, “The advantages of using microscopic analyses as part of the assessment of alkali aggregate reactivity”, Workshop proceeding from a Nordic-Baltic Mini-seminar “Alkali aggregate reactions (AAR) in concrete” , Riga, Latvia, 21–22 November 2013, no. 11, pp. 17–25, 2013. [2] T. C. Esteves, R. Rajamma, D. Soares, A. S. Silva, V. M. Ferreira, and J. A. Labrincha, “Use of biomass fly ash for mitigation of alkali-silica reaction of cement mortars,” Construction and Building Materials , vol. 26, no. 1, pp. 687–693, Jan. 2012

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Contribution to Dynamical Properties of Machine Aggregates with Gearing

-лирования машинных агрегатов. In Сб. докладов научно-технической конференции с междунар. участием - Теория и практика зубчатых передач и редукторостроения . Ижевск: РФ, pp. 27-32. 5. MUDRIK, J., NAĎ, M., 2001. The effect of electric drive parameters on the vibration of the machine aggregate. In: Proc. of the 9 th International Scientific Conference -CO-MAT-TECH 2001 . Part 2. Trnava: pp. 324-329, 6. MUDRIK, J., LIPTÁK, N., NAĎ, M., 2008. The effect of the speed-torque characteristics upon the steady-state motion of the machine aggregate. In: Proc. of the X

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An Investigation of Mechanical Properties of Recycled Coarse Aggregate Concrete

R eferences 1. A. Rao, K. N. Jha, S. Misra. “Use of aggregates from recycled construction and demolition waste in concrete”, Resources Conserve Recycle, 50(1), 71-81, 2007. 2. A. Coelho, J. D. Brito. “Economic analysis of conventional versus selective demolition–a case study”, Resources Conserve Recycle, 55(3), 382-92, 2011. 3. R. V. Silva, R. Neves, J de Brito, R. K. Dhir. “Carbonation behaviour of recycled aggregate concrete”, Cement and Concrete Composites, 62, 22-32, 2015. 4. V. Radonjanin, M. Malešev, S. Marinković, A. E. S. A.l Malty

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