Magnezijev oksid iz morske vode - Kemijsko-tehnološki fakultet
Magnezijev oksid iz morske vode - Kemijsko-tehnološki fakultet Magnezijev oksid iz morske vode - Kemijsko-tehnološki fakultet
Chor K., Bocquet J. F., Pommier C., Syntheses of Submicron Magnesium Oxide Powder, Mat. Chem. Phys. 40 (1995) 63-68, Choudhary V. R., Pataskar S. G., Pandit M. Y., Gunjikar V. G., Influence of Precipitation Conditions of Magnesium Hydroxide on its Thermal Decomposition in the Preparation of Active MgO, Thermochim. Acta 194 (1992) 361-373, Cocheci C., Sora M., Taubert L., Policec S., Magnesium Hydroxide Separation from aqueous slurries, Filtrieren und Separieren 9 (1995) 120-122, Cronan D. S. (Editor), Handbook of Marine Mineral Deposits by, In Marine Science Series ed. by Kennish M. J. and Lutz P. L., CRC Press, Boca Raton, 2000., Culkin F., The major constituents of sea water, In Chemical Oceanography, J. P. Riley and G. Skirow (Eds.), Vol. 1, Academic Press, London, !975., p. 136-151, Čeh M., Kolar D., Solubility of CaO in CaTiO 3 , J. Mater. Sci. 29(1994) 6295-6300, Ćosić M., Pavlovski B., Tkalčec E., Activated Sintering of Magnesium Oxide derived from Serpentine, Sci. Sinter. 21 (1989) 161-174, Duncan R. L., Synthetic and Natural Magnesias, Ind. Mineral. 7 (1986) 43-48, Filipović I., Lipanović S., Opća i anorganska kemija, II dio, IX izdanje, Školska knjiga, Zagreb, 1995., Frith M., Buffrey T., Strawbridge I., Magnesia: A Refractories Manufacturer Perspective, Brit. Ceram. Trans. 97 (1998) 29-34, Gaskell T. F., The ocean: an untapped source of raw materials, Chem. Ind. 10 (1971) 1149-1154, German R. M., Sintering Theory and Practice, Wiley, New York, 1996, str. 68-128, 209-218, Gilpin W. C., Heasman N., Recovery of magnesium compounds from sea water, Chem. Ind. 16 (1977) 567-572, Green J., Calcination of precipitated Mg(OH) 2 to Active MgO in the production of Refractory and Chemical Grade MgO, J. Mat. Sci. 18 (1983) 637-651, Hausner H. H., Dužević D., Definition of the Term “Sintering”, Sci. Sinter. 13 (1981) 1-6, Heasman N., New developments in seawater magnesia, Gas Wärme International, 28 (1979) 392–397, Hicks J. C., Tangney S., High Purity Refractory Magnesia from Irish Sea, Ceram. Bull. 59 (1980) 711-714, 131
Hraste M., Mehaničko procesno inženjerstvo, II izdanje, Hinus, Zagreb, 2003, str. 31– 48, Ivanov E. V., Dolgina G. Z., Bunina V. P., Polučenie okisi magnija iz morskoj vodi i dolomitov, Ogneupori, 12 (1974) 25-30, Itatani K., Yasuda R., Scott Howell F., Kishioka A., Effect of Starting Particle Size on Hot-pressing of Magnesium Oxide Powder prepared by Vapor-phase Oxidation Process, J. Mat. Sci. 32 (1997) 2977-2984, Itatani K., Nomura M., Kishioka A., Kinoshita M., Sinterability of Various Highpurity Magnesium Oxide Powders, J. Mat. Sci. 21 (1986) 1429-1435, Itatani K., Itoh A., Howell F. S., Kishioka A., Kinoshita M., Densification and Microstructure Development During Sintering of Submicrometre Magnesium Oxide Particles Prepared by Vapor-phase Oxidation Process, J. Mat. Sci. 28 (1993) 719-728, Itatani K., Koizumi K., Howell F. S., Kishioka A., Kinoshita M., Agglomeration of Magnesium Oxide Particles Formed by the Decomposition of Magnesium Hydroxide, Part 1 Agglomeration at Increasing Temperature, J. Mat. Sci. 23 (1988) 3405-3412, Itatani K., Koizumi K., Howell F. S., Kishioka A., Kinoshita M., Agglomeration of Magnesium Oxide Particles Formed by the Decomposition of Magnesium Hydroxide, Part 2 Agglomeration at Fixed Temperature, J. Mat. Sci. 24 (1989) 2603-2609, Itoh A., Itatani K., Howell F. S., Kishioka A., Kinoshita M., Sintering of Magnesium Oxide Powder Prepared by Vapor-phase Oxidation Process – Relationship between Particle Size and Mechanical Properties of Consolidates Specimens, J. Mat. Sci. 31 (1996) 2757-2765, Jones A. G., Crystallization Process Systems, Butterworth Heinemannin, Oxford, 2002, str. 35-43, Jost H., Braun M., Carius Ch., The Role of Reactivity in Syntheses and Properties of Magnesium Oxide, Solid State Ionics Vols. 101-103 (1997) 221-228, Kang Suk-Joong L., Sintering, Elsevier, Oxford, 2005, str. 37-74, 173-179, Kennish M. J. (Editor) Practical Handbook of Marine Science, 3 rd Ed., CRC Press, Boca Raton, 2001, str. 74-80., King R. P., Introduction to Practical Fluid Flow, Butterworth Heinemannin, Oxford, 2002, str. 159-194, Krstulović R., Tehnološki procesi anorganske industrije, Sveučilište u Splitu, Tehnološki fakultet, Split, 1986, str. 470-488, 426-462, Kynch G. J., A Theory of Sedimentation, J. Trans. Faraday Soc. 48 (1952) 166-176, 132
- Page 87 and 88: Usporedba s ranije ispitivanim flok
- Page 89 and 90: 100 g praškastog flokulanta ……
- Page 91 and 92: Slijedi da su koncentracija i prisu
- Page 93 and 94: Naime, zona D je pod tlakom i u njo
- Page 95 and 96: Brzina taloženja, v s (nagib tange
- Page 97 and 98: gdje je: V& ⋅ γ = V& ⋅ γ (35)
- Page 99 and 100: 2.5. NESTEHIOMETRIJSKI NAČIN TALO
- Page 101 and 102: 2.6. BOROV (III) OKSID U MAGNEZIJEV
- Page 103 and 104: to da etilen-glikol nije djelotvora
- Page 105 and 106: nastaviti sa zaluženom destilirano
- Page 107 and 108: meñučestičnih veza. Uslijed povi
- Page 109 and 110: strukturno stanje i geometrija prah
- Page 111 and 112: granicama zrna tijekom sinteriranja
- Page 113 and 114: sustava, koja sadrži manju slobodn
- Page 115 and 116: Slika 38. Osnovne promjene koje nas
- Page 117 and 118: Slika 39. Prikaz šest mogućih meh
- Page 119 and 120: Zbog toga se rezultati fundamentaln
- Page 121 and 122: magnezijeva oksida ne ovise samo o
- Page 123 and 124: Ovisnost zgušnjavanja ispresaka ma
- Page 125 and 126: Montičelit (CaMgSiO 4 ) i mervinit
- Page 127 and 128: oksida, npr. CaO i Na 2 O, snizuje
- Page 129 and 130: plinovitoj fazi vrlo značajan za d
- Page 131 and 132: objasniti time da Al 3+ ioni mogu u
- Page 133 and 134: Primjerice: - u temperaturnom podru
- Page 135 and 136: Dodatak w = 0,2 % TiO 2 (u obliku a
- Page 137: LITERATURA Alvarado E., Torres-Mart
- Page 141 and 142: Martinac V., Labor M., Gadžo Z., P
- Page 143 and 144: Pilson M. E. Q., An Introduction to
Chor K., Bocquet J. F., Pommier C., Syntheses of Submicron Magnesium Oxide<br />
Powder, Mat. Chem. Phys. 40 (1995) 63-68,<br />
Choudhary V. R., Pataskar S. G., Pandit M. Y., Gunjikar V. G., Influence of<br />
Precipitation Conditions of Magnesium Hydroxide on its Thermal Decomposition in<br />
the Preparation of Active MgO, Thermochim. Acta 194 (1992) 361-373,<br />
Cocheci C., Sora M., Taubert L., Policec S., Magnesium Hydroxide Separation from<br />
aqueous slurries, Filtrieren und Separieren 9 (1995) 120-122,<br />
Cronan D. S. (Editor), Handbook of Marine Mineral Deposits by, In Marine Science<br />
Series ed. by Kennish M. J. and Lutz P. L., CRC Press, Boca Raton, 2000.,<br />
Culkin F., The major constituents of sea water, In Chemical Oceanography, J. P. Riley<br />
and G. Skirow (Eds.), Vol. 1, Academic Press, London, !975., p. 136-151,<br />
Čeh M., Kolar D., Solubility of CaO in CaTiO 3 , J. Mater. Sci. 29(1994) 6295-6300,<br />
Ćosić M., Pavlovski B., Tkalčec E., Activated Sintering of Magnesium Oxide derived<br />
from Serpentine, Sci. Sinter. 21 (1989) 161-174,<br />
Duncan R. L., Synthetic and Natural Magnesias, Ind. Mineral. 7 (1986) 43-48,<br />
Filipović I., Lipanović S., Opća i anorganska kemija, II dio, IX <strong>iz</strong>danje, Školska<br />
knjiga, Zagreb, 1995.,<br />
Frith M., Buffrey T., Strawbridge I., Magnesia: A Refractories Manufacturer<br />
Perspective, Brit. Ceram. Trans. 97 (1998) 29-34,<br />
Gaskell T. F., The ocean: an untapped source of raw materials, Chem. Ind. 10 (1971)<br />
1149-1154,<br />
German R. M., Sintering Theory and Practice, Wiley, New York, 1996, str. 68-128,<br />
209-218,<br />
Gilpin W. C., Heasman N., Recovery of magnesium compounds from sea water,<br />
Chem. Ind. 16 (1977) 567-572,<br />
Green J., Calcination of precipitated Mg(OH) 2 to Active MgO in the production of<br />
Refractory and Chemical Grade MgO, J. Mat. Sci. 18 (1983) 637-651,<br />
Hausner H. H., Dužević D., Definition of the Term “Sintering”, Sci. Sinter. 13 (1981)<br />
1-6,<br />
Heasman N., New developments in seawater magnesia, Gas Wärme International, 28<br />
(1979) 392–397,<br />
Hicks J. C., Tangney S., High Purity Refractory Magnesia from Irish Sea, Ceram.<br />
Bull. 59 (1980) 711-714,<br />
131