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Just as Invar describes a system with a smaller than ``normal'' thermal expansion in a magnetically ordered state, a system with a larger than ``normal'' thermal expansion in a magnetically disordered state can be described as anti-Invar. Anti-Invar had been already observed in a number of fcc binary and ternary alloys of the 3d series well above magnetic ordering temperatures. While Invar is characterized by low-temperature moment-volume instabilities, anti-Invar signifies the importance of high-temperature moment-volume instabilities. Both are closely related to the ground-state properties. We have reinvestigated the Fe₅₀NiₗMn₅₀-ₗ alloy system and confirmed the existence of enhanced thermal expansion at high temperatures, i. e. , the anti-Invar effect. With the aid of the thermal properties of these alloys we deduce the temperature dependence of the thermal expansion of -Fe and show its anti-Invar nature. The enhanced volume expansion in -Fe amounts to 2. 8%, which is larger than the Invar effect (2%) in Fe₆₅Ni₃₅.
Acet et al. (Tue,) studied this question.
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