order-disorder transition
英 [ˈɔːdə(r) dɪsˈɔːdə(r) trænˈzɪʃn]
美 [ˈɔːrdər dɪsˈɔːrdər trænˈzɪʃn]
有序-无序转变
双语例句
- Temperature dependence of order-disorder melting transition of vortex lattice in layered superconductors
层状超导体磁通格子固相熔化的温度效应 - A 3D flux-line lattice model in layered superconductors is developed. Using dynamic simulations, the order-disorder melting transition of vortex lattice is studied.
发展了层状超导体中3D磁通线模型,用动力学模拟方法数值研究了磁通格子的有序无序熔化相变。 - Relaxation behavior of C 60 molecules between order-disorder phase transition and glassy transition is studied by extremal dynamic model.
用极限动力学模型研究了C60分子在有序-无序相变和玻璃态相变间的驰豫行为。 - He order-disorder transition in Pd-8.22at% Y alloy has been investigated.
探讨了Pd-8at%Y合金的有序无序转变。 - Third, the magnetic moment smoothly changes from 2 or 1 to 0, which exhibits second order-disorder phase transition.
系统的磁矩由2或1平滑地变化到0,发生二阶有序-无序相变。 - Neutron diffraction study of the order-disorder transition of an Fe-Si-Al alloy
Fe-Si-Al合金的中子衍射研究 - The number and the peak temperature as well as order-disorder effect of total phase transition are related to the centre metal ions.
固固相变数目、相变温度和相变的有序无序效应主要取决于中心金属离子的种类。 - The steep change of the sticking coefficient in the temperature range 110-120 ℃ may be explained by a model of the order-disorder transition arisen from the surface melting.
在110&120℃温区内发生的粘着系数的阶跃变化可以用表面熔化所导致的有序-无序的相变模型来解释; - Study of order-disorder phase transition in alloy
合金有序&无序相变的研究 - Order-Disorder Transition in Pd-8at% Y Alloy
Pd-8at%Y合金的有序无序转变 - Thermodynamics of Phase Diagram of Alnico Alloys. ⅰ. Miscibility Gap Due to Order-disorder Transition
铝镍钴永磁合金状态图的热力学&Ⅰ.有序-无序转变引起的两相分解 - In the longitudinal sections of stabilized fibers, the order-disorder transition of ribbon-like structure begins from the end of ribbons and spreads along the interface between ribbons.
在预氧丝纵向切片中,条带状组织的非晶化转变主要是从条带末端开始,并沿条带间的边界向内部扩展。 - Though order-disorder transition also takes places in ribbon-like structures, high orientation is maintained, which guarantees high tensile strength and modulus for carbon fibers.
条带组织虽然发生了非晶化转变,但仍然能够维持较高的取向度,这对保证最终碳纤维具有较高的强度和模量是非常有利的。