Dissolution kinetics of mild-steel in sea water.

Işık, Bülent


Formation Kinetics, Morphology and Magnetic Properties of BaHF Ceramics Synthesized in x wtNaCl- (100-x) wt KCl Molten Salts
Kaya, Seray; Aydoğan Güngör, Eda; Dericioğlu, Arcan Fehmi (2013-06-19)
Micron size barium hexaferrite (BaHF, BaFe12O19) platelets were prepared by molten-salt synthesis method in various weight proportions of NaCl-KCl salt mixtures as the liquid medium. The effects of calcination temperature and molten salt composition –x wt% NaCl and (100-x) wt% KCl-on the formation kinetics and amount of BaHF phase formation as well as on the morphology and magnetic properties of the final products have been discussed. Inductively coupled plasma-mass spectroscopy (ICP-MS) was used to determi...
Formation kinetics of trihalomethanes in chlorination of drinking water
Güven Şahinalp, Yeşim; Başer Özbelge, Tülay; Department of Chemical Engineering (1994)
Dissolution and purification investigations on Turkish uranium ore concentrate (yellow cake).
Atabek, Mustafa; Department of Chemical Engineering (1980)
Dissolution of carbides in austenitic manganase steel.
Özgen, Sami; Department of Metallurgical Engineering (1975)
Deposition of carbon by intense fast electron beam generator
Goktas, H; Oke, G; Udrea, M; Esendemir, A (2002-01-01)
The electron beam generator consists of a fast filamentary discharge in superposition with an ordinary glow discharge in low-pressure gases. The filling gas is helium, argon or nitrogen at approximately 0.1 Torr pressure. The duration of the electron beam is shorter than 30 ns and the peak current intensity is typically 20 A. The deposition of carbon on a substrate has been done by two methods; firstly, the low pressure argon gas was replaced by methane gas as a plasma source and, secondly, a graphite targe...
Citation Formats
B. Işık, “Dissolution kinetics of mild-steel in sea water.,” Middle East Technical University, 1975.