Search Results

You are looking at 1 - 10 of 1,421 items for :

Clear All
Open access

Bejan Sergiu

References [1]. GANCIU T.: “Identificarea sistemelor”, Editura Nord-Est, Iași, Romania,1995; [2]. THURNER, H.F., SANDSTRÖM, A.: „Continuous Compaction Control”, CCC, European Workshop Compaction of Soils and Granular Materials, Paris, May 19th, pp. 237-246, 2000; [3]. WHITE, D., THOMPSON, M.: „Relationships Between In Situ and Roller-Integrated Compaction Measurements for Granular Soils”, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, Vol. 134, No. 12, pp. 1763-1770, 2008;

Open access

L’ubica Holá and Dušan Holý

subcontinuous functions and compactness, Mediterranean J. Math. 13 (2016), 4509–4518. [10] HOLÁ, L’.—HOLÝ, D.: Quasicontinuous functions and compactness (submitted). [11] HOLÝ, D.: Ascoli-type theorems for locally bounded quasicontinuous functions, minimal usco and minimal cusco maps, Ann. Funct. Anal. 6 (2015), 29–41, http://projecteuclid.org/afa [12] HAMMER, S. T.—MCCOY, R. A.: Spaces of densely continuous forms, Set-Valued Anal. 5 (1997), 247–266. [13] KELLEY, J. L.: General Topology. Van Nostrand, New York, 1955. [14] KEMPISTY

Open access

Lech Bałachowski and Norbert Kurek

References [1] SCHMERTMANN J.H., Dilatometer to compute foundation settlements , Proc. In-situ'86 GT Div., ASCE, June 23.25, Blacksburg, VA, 1986, 303.321. [2] MESRI G., FENG T.W., BENAK J.M., Postdensification penetration resistance of clean sands , J. Geotech. Engng., ASCE, 1990, 116, 7, 1095.1115. [3] SLOCOMBE B.C., BELL A.L., BAEZ J.I., The densification of granular soils using vibro methods , Geotechnique, 2000, 50, 6, 715.725. [4] MASSARSCH K.R., FELLENIUS B.H., Vibratory compaction of coarse-grained soils , Can. Geotech. J., 2002, 39, 695

Open access

S. Ponmalar

References [1] Aaron W. Saak, Hamlin M. Jennings, and Surendra P. Shah. (2001). New Methodology for Designing Self-Compacting Concrete. ACI Materials Journal. 98(6), 429-439. DOI: 10.14359/10841. [2] Arnaud Castel, Thierry Vidal and Raoul Francois. (2010). Bond and Cracking Properties of Self Compacting Concrete. Construction and Building Materials. 24(7), 1222-1231. DOI: https://doi.org/10.1016/j.conbuildmat.2009.12.017 . [3] Elinwa, Augustine U.Ejeh, Stephen P.Mamuda, Ahmed M., (2008). Assessing of the fresh concrete properties of self-compacting

Open access

Kinga Śnieg and Dariusz Błażejczak

References Aragón, A., García, M.G., Filgueira, R.R., Pachepsky, Ya.A. (2000). Maximum compactibility of Argentine soils from the Proctor test; The relationship with organic carbon and water content. Soil and Tillage Research, 56, 197-204. Barzegar, A.R., Asoodar, M. A., Ansari, M. (2000). Effectiveness of sugarcane residue incorporation at different water contents and the Proctor compaction loads in reducing soil compactibility. Soil & Tillage Research, 57, 167-172. Błażejczak, D. (2010). Prognozowanie

Open access

Maroš Eckert, Peter Peciar, Alexander Krok and Roman Fekete

REFERENCES [1] DENNY, P.J. 2002. Compaction equations: A comparison of the Heckel and Kawakita equations. In Powder Technology. 2002, vol. 127, pp. 162-172. [2] ODEKU, O.A. 2007. The compaction of pharmaceutical powders [review]. Available: www.pharmainfo.net/exclusive/reviews/the_compaction_of_pharmaceutical_powders/ [3] SONNERGAARD, J.M. 2000. Impact of particle density and initial volume on mathematical compression models. In European Journal of Pharmaceutical Sciences. 2000, vol. 11, pp. 307-315. [4] WU, C.Y., et. al. 2005

Open access

Andrzej Sawicki, Jacek Mierczyński and Justyna Sławińska

-Cohesive Soils , Balkema, Rotterdam/Brookfield. Sawicki A. (1987) An engineering model for compaction of sand under cyclic loading, Engineering Transactions , 35 , 4, 677–693. Sawicki A. and Świdziński W. (2006) A study on liquefaction susceptibility of some soils from the coast of Marmara sea, Bulletin of the Polish Academy of Sciences, Technical Sciences, 54 , 4, 405–418. Sawicki A., Mierczyński J. and Świdziński W. (2014a) Basic set of experiments for determination of mechanical properties of sand, Bulletin of the Polish Academy of Sciences

Open access

Ileana Nicoleta Popescu and Ruxandra Vidu

References [1] R. W. Heckel, A normalized density-pressure Curve for Powder Compaction Trans. Metall. Soc. AIME, 224 (1962). 1074. [2]. I. H. Moon ,K. H. Kim, , Relationship between compacting pressure, green density, and green strength of copper powder compacts Powder Met., 27( 2) (1984). 80-84. [3] T. Çomoğlu, An Overview of Compaction Equations J. Fac. Pharm, Ankara, 36 (2) (2007)123-133. [4] C. Cazotti, J.L.A. Oliveira, J.B. Fogagnolo, , Efeito da Adição de Partículas de Al2O3 sobre a

Open access

Mirela Cristea, Doina Dascălu and Laura Nicoleta Nasta

of mathematical economics, Vol. IV, 1835-1898, Handbooks in Economics, 1, North-Holland, Amsterdam, 1991. [5] L. W. McKenzie: The classical theorem on existence of competitive equilibrium. Econometrica 49 (1981), 819-841. [6] L. Walras: Élements d'économie politique pure, 4 éme édition, Lausanne, Paris, 1900. [7] G. Žitković Convex compactness and its applications. Math. Financ. Econ. 3 (2010), 1-12.

Open access

Stanisław Skonecki, Ryszard Kulig and Grzegorz Łysiak

References Barnwal P., Kadam D.M., and Singh K.K., 2012. Influence of moisture content on physical properties of maize. Int.Agrophys., 26, 331-334. Chen B., Cheng A.H.-D., and Chou T.-W., 2001. A nonlinear compaction model for fibrous preforms. Composites-Part A: Appl. Sci. Manufacturing, 32(5), 701-707. Chevanan N., Womac A.R., Bitra V.S.P., Igathinathane C., Yang Y.T., Miu P.I., and Sokhansanj S., 2010. Bulk density and compaction behavior of knife mill chopped switchgrass, wheat straw, and corn stover