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Clays as SCM – Reactivity of Uncalcined Kaolinite and Bentonite, and Impact on Phase Assemblage and Strength Development of PC Mortars

, Jakobsen HJ, Geiker MR, Stang H, Krøyer H, Skibsted JB: “ Suspension of clays in water for addition to e.g. concrete ”. Patent WO2008052554A1, 2008-05-08. 10. EN 196-1. Methods of testing cement - Part 1: Determination of strength, 2005. 11. EN 1015-03. Determination of consistence of fresh mortar (by flow table), 2004 12. NordTest, NT Build 492, “Concrete, mortar and cement-based repair materials: chloride migration coefficient from non-steady-state migration experiments”, approved 1999-11. 13. Fontenay le Sage de C, Sellevold EJ: “Ice formation

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Stability of Air Content in Fresh Concretes with PCE-Based Superplasticizers

Association of Construction Product Industries, SFS, Helsinki, Finland, 2009. 13. ASTM C138 / C138M-17a “Standard Test Method for Density (Unit Weight), Yield, and Air Content (Gravimetric) of Concrete”. ASTM International, West Conshohocken, PA, USA, 2017, www.astm.org 14. SFS-EN 12350-2:2009 “Testing fresh concrete. Part 2: Slump-test”. Finnish Association of Construction Product Industries, SFS, Helsinki, Finland, 2009. 15. SFS-EN 12350-5:2009 “Testing fresh concrete. Part 5: Flow table test”. Finnish Association of Construction Product Industries, SFS

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Frost Destruction of Concrete – A Study of the Validity of Different Mechanisms

REFERENCES 1. Fagerlund G: “A service life model for internal frost damage in concrete,” Report TVBM-3119, Div. of Building Materials, Lund Institute of Technology, Lund, Sweden, 2004. 2. Fagerlund G: “The critical flow distance at freezing of concrete – theory and experiment,” Nordic Concrete Research , No. 56, 2017, pp. 35-53. 3. Fagerlund G: “Significance of critical degrees of saturation at freezing of porous and brittle materials,” Special Publication SP-47-2 “Durability of Concrete,” American Concrete Institute. Detroit, USA, 1973

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Filler and Water Reducer Effects on Sedimentation, Bleeding and Zeta-Potential of Cement Paste

8. Richardson J F; Zaki W N.: “The sedimentation of a suspension of uniform spheres under conditions of viscous flow”, Chem. Eng. Sci ., V.3, 1954, pp. 65-73 9. Kynch G. J:, “A theory of sedimentation”, Trans. Faraday Soc., V.48, 1952, pp.166-176 10. Powers T.C., “The Properties of Fresh Concrete”, Wiley & Sons, London, 1968, 664 pp. 11. Steinour H. H.: “Further studies of the bleeding of Portland cement paste”, Research Bulletin No. 4, Portland Cement Association, Skokie, USA, 1945 12. Zingg A., Winnefeld F., Holzer L., Pakusch J

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One Contribution to the Friction Investigation in Bulk Metal Forming

of flow softening on ring test calibration curves, Materials Science and Engineering A270, 1999, pp 249-253. Burgdorf M.: Über die Ermittlung des Reib-wertes für Verfahren der Massivum-formung durch den Ringstauchversuch, Industrie Anzeiger, 1967, pp 15-20. Mielnik E.: Metalworking Science and Engineering, McGraw-Hill, 1991. Plančak M., Barisić B., Vilotić D., Kačmarčik I., Movrin D., Skakun P., Milutinović M.: Analytical and numerical solutions for friction calibration curves (FCC) in

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The influence of chemical composition on the dimensions

., ParasharS. K. S., Enhancement of heat transfer by water-Al2O3and water-TiO2nanofluids jet impingement in cooling hot steel surface, Journal of Experimental Nanoscience, 11(16), (2016) 1253-1273, http://dx.doi.org/10.1080/17458080.2016.1209789 [4] KimH., DeWittG., McKrellT., BuongiornoJ., HuL., On the quenching of steel and zircaloy spheres in water-based nanofluids with alumina, silica and diamond nanoparticles, International Journal of Multiphase Flow,35(5),(2009)427 -438,doi: 10.1016/j.ijmultiphaseflow.2009.02.004. [5] PN-EN 10277

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Identifying Combination of Friction Stir Welding Parameters to Maximize Strength of Lap Joints of AA2014-T6 Aluminum Alloy

the friction stir lap welding of aluminum alloys AA5182 and AA6022, Journal of Materials Engineering Performance 16 (2007) 477-484. [8] Kimapong K., Watanabe T., Effect of welding process parameters on mechanical property of FSW lap joint between aluminum alloy and steel, Materials Transactions, 46 (10) (2005) 2211-2217. [9] Cen Z.W, Yazdanian S., Friction stir lap welding: material flow, Joint structure and strength, Jour. Of Acheivements in Materials and Manufacturing Engineering 55 (2012) 629-637 [10] Babu S

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