Darren P. Lapham scite author profile

Abstract. The presence of hydrogen in aluminium poses problems to the foundry and casting industries, because high residual hydrogen contents in molten aluminium cause significant porosity in the solid aluminium after casting. This usually renders the product useless as it may fail mechanically. Therefore, fast, accurate and reliable techniques are required for monitoring the dissolved hydrogen content in molten aluminium, but this particularly harsh environment places considerable restrictions on the equipment that can be used. Several methods are available for the determination of hydrogen in aluminium melts, but they either suffer problems of accuracy, reliability and longevity or are not applicable to industrial environments. It is considered that the most appropriate device for the hydrogen analysis in aluminium melts should be an electrochemical sensor, which employs a proton conducting solid electrolyte in conjunction with a measuring electrode and a suitable reference electrode. The electromotive force of such a cell allows direct calculation of the hydrogen concentration in the melt. However, all the electrochemical sensors reported in the literature thus far exhibit distinct drawbacks. This article discusses the various techniques for the determination of hydrogen in molten aluminium with particular emphasis on the benefits and shortcomings of the existing electrochemical sensors.

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Darren P. Lapham

The effect of firing temperature, preparation technique and composition on the electrical properties of the nickel cobalt oxide series Ni_xCo_{1 - x}O_y

The preparation of NiCo2O4 films by electrostatic spray deposition

BET surface area measurement of commercial magnesium stearate by krypton adsorption in preference to nitrogen adsorption

Preparative effects on the surface area and pore structure of microporous heteropoly oxometalates

The detection of hydrogen in molten aluminium

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Darren P. Lapham

The effect of firing temperature, preparation technique and composition on the electrical properties of the nickel cobalt oxide series NixCo1 - xOy

The preparation of NiCo2O4 films by electrostatic spray deposition

BET surface area measurement of commercial magnesium stearate by krypton adsorption in preference to nitrogen adsorption

Preparative effects on the surface area and pore structure of microporous heteropoly oxometalates

The detection of hydrogen in molten aluminium

Contact Info

Product

Resources

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The effect of firing temperature, preparation technique and composition on the electrical properties of the nickel cobalt oxide series Ni_xCo_{1 - x}O_y