对Ni43Cr5Ti2A10.5Fe艾林瓦合金在淬火、回火和冷变形状态下测量了内场分布曲线P(H)。实验所得的P(H)曲线的分布是很宽的,并可将其分解为三个高斯分布曲线,这可能是由于合金中有Cr、Ti、Al等元素,因此Fe原子可以有三种甚至更多种有不同磁矩的磁性状态。在淬火状态下,除了有对应于基体中Fe原子组态的内场180kOe外,也出现具有小的有效内场的择优组态,因此合金在淬火态下已经有了γ′相的胚芽。冷变形后, The internal field distribution curve P (H) was measured on the Ni43Cr5Ti2A10.5Fe Alingwa alloy under the condition of quenching, tempering and cold deformation. The experimental P (H) curve is very wide and can be decomposed into three Gaussian distribution curves. This may be due to the presence of elements such as Cr, Ti and Al in the alloy. Therefore, Fe atoms may have three or more A variety of magnetic state with different magnetic moments. In the quenched state, in addition to having a 180 kOe internal field corresponding to the configuration of Fe atoms in the matrix, a preferred configuration with a small effective internal field appears, so that the alloy already has the γ ’phase germ in the quenched state. After cold deformation,