A magnesia refractory is defined by

A magnesia refractory is defined by the American Society for Testing and
Materials (ASTM) as “a dead-burned refractory material consisting predominantly
of crystalline magnesium oxide” (1). Furthermore, ASTM defines “dead-burned”
as “the state of a basic refractory material resulting from a heat treatment that
yields a product resistant to atmospheric hydration or recombination with carbon
dioxide” (2). The chemical formula for magnesium oxide is MgO. However, no
dead-burned magnesium oxide contains 100 wt. % MgO. Chemical assays of any
such refractory raw material show some level (generally less than 30 wt. % total)
of silica, lime, iron oxide, alumina, and boron oxide, that, mineralogically, occur
(1) in triple-point pockets and films between the MgO crystallites in the deadburned magnesium oxide material as, for example, various calcium silicates,
calcium magnesium silicates, calcium boron silicates, and calcium aluminates;
(2) as lime and iron oxide solid-solutions in the magnesia crystallites; and (3)
sometimes, as magnesioferrite exsolution intergrowths, within the magnesium
oxide crystallites themselves.
Also, ASTM defines basic refractories as “refractories whose major constituent is lime, magnesia, or both, and which may react chemically with acid
refractories, acid slags, or acidic fluxes at high temperatures” (3). (In a postscript,
the definition mentions that “commercial use of this term [basic refractories] also
includes refractories made of chrome ore or combinations of chrome ore and
dead-burned magnesite.”) Conversely, basic refractories exhibit excellent chemical resistance to other basic refractories, basic slags, or basic fluxes at high temperatures. Lime and magnesia also hydrolyze in water to form hydroxides, so the
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designation of these so-called basic refractories is truly meant to characterize
their chemical behavior.