中文摘要：

起始磁化曲线作为铁磁材料磁学特性的重要表征,研究其获取方法具有重要意义.现有方法采用随时间变化磁场作为激励磁场,通过改变激励磁场大小,逐步改变试件内的磁场及磁感应强度并进行测量以得到起始磁化曲线,效率较低,准备繁琐.为此,本文从基本的磁学物理定理出发,提出一种基于时空变换的起始磁化曲线推算方法.该方法以细长棒状试件或环形试件作为被测试件;采用恒定磁化在被测试件内产生空间变化磁场作为激励磁场;通过测量试件表面的磁场值来推算试件内磁场值,从而获取铁磁材料起始磁化曲线.直流线圈恒定磁化环形和棒状试件仿真实验验证了该方法的理论正确性.进一步地,考虑实际应用限制因素的推算结果表明了该方法在实际应用中是可行的,可为探索新的起始磁化曲线测量方法提供理论指导.

英文摘要：

It is of great significance to research on methods for obtaining the initial magnetization curve,the important magnetic property of ferromagnetic materials.In the existing methods,a time-varying magnetic field is adopted as the excitation field.To obtain the initial magnetization curve,magnetic field and induced magnetic flux density in the specimen have to be measured step-by-step as the excitation field changes,and this is inefficient.Thus,a calculation method for initial magnetization curve based on time-space transformation is proposed in this paper.In this method,an elongated rod or a circular ring is used as the specimen.A spatially varying magnetic field generated by constant magnetization is utilized as the excitation field.The strength of the excitation field changes with the spatial positions of the specimen.Under the action of the excitation field,the magnetic field strength within the specimen is calculated by means of the responding magnetic field strength on the surface of the specimen according to the continuity of the tangential magnetic field strength.While,based on the Gauss’ law for magnetism,the law of approach to saturation and the basic equation of magnetization curve in Rayleigh region,the induced magnetic flux density within the specimen can be calculated from the responding magnetic flux density on the surface of the specimen.After obtaining the magnetic field strength and magnetic flux density in the specimen,the initial magnetization curve can be obtained.To verify theoretically the correctness of the method,simulations are carried out with an elongated rod and a circular ring.In experiments,a spatially varying magnetic field generated by DC coils is applied on the specimen as the excitation field.The initial magnetization curve calculated from the magnetic field strength and magnetic flux density on the surface of the specimen is similar to the known initial magnetization curve.Experimental results also show that when adopting an elongated rod rather than a circular ring as the speci