Strength development due to mechanical bonding of strong

whisker crystals of hydrates on MgO crystals was a mechanism consid-

ered by Tooper and Cartz. [10] The bonding sites were augmented by

interpenetration of crystals and solid-solid contact with other scroll-type

crystal morphologies.

2.5

Resistance To Water

MOC paste undergoes significant strength retrogression (up to

50%) when continuously immersed in water. [11]-[13] This is a dissolution

process and requires continuous contact with water for leaching of magne-

sium chloride to be significant. The water resistance of MOC can be

improved by addition of ferrous phosphate and aluminum phosphate with

magnesium oxide powder. [11] Coatings with bitumen emulsion have also

been effective in minimizing strength retrogression. Sulphur impregnation

of MOC paste improves water resistance significantly. [14] Loss in strength

is reduced from 48.5% to 12.6% after complete immersion in water for

seven days. Re-impregnation after exposure to water for 28 days increases

strength and stabilizes the materials on further exposure to water. The more

readily soluble material is removed through exposure of the initially

impregnated material to water. Subsequent impregnation results in a body

with more sulphur distributed in a matrix more resistant to water.

Additives which have been shown to be effective in lessening the

weakening effects of water include the following: [15] fly ash, slag, baked

clay, diatomite, silicate cement, coal gangue, baked diatomite, H 3 PO 4 ,

Al(H 2 PO 4 ) 3 , H 3 BO 3 , Na 2 SO 4 , Na 3 PO 4 , and K 3 PO 4 . The addition of copper

powder in the amount of 10-12% has also been reported to increase strength

and water resistance of MOC paste. This is attributed to formation of

3CuO•CuCl 2 •3H 2 O.

3.0

MAGNESIUM OXYSULFATE CEMENT

3.1

Hydration

Magnesium oxysulfate cement pastes can be produced through

reaction of MgO and an aqueous solution of MgSO 4 •7H 2 O. [16] Alterna-

tively magnesium chloride solutions can be added to calcium sulfates or

calcium phosphate-sulfate mixtures. The presence of phosphates enhances

the water resistance of this cement system.