Magnetic Barkhausen Noise (MBN) is a phenomenon of electromagnetic energy emission due to the movement of magnetic domain walls inside ferromagnetic materials when they are locally magnetized by an alternating magneti...Magnetic Barkhausen Noise (MBN) is a phenomenon of electromagnetic energy emission due to the movement of magnetic domain walls inside ferromagnetic materials when they are locally magnetized by an alternating magnetic field. According to Faraday’s law of electromagnetic induction, the noise can be received by the coil attached to the surface of the material being magnetized and the noise carries the message of the characteristics of the material such as stresses, hardness, phase content, etc. Based on the characteristic of the noise, research about the relationship between the welding stresses in the welding assembly and the noise, the fatigue damage of the plate structure and the noise, and the influence of heat treatment and the variation of phase content to the noise are carried out in this paper.展开更多
Hardened depths on steel samples are evaluated using a non-destructive technique based on the measurement of surface magnetic Barkhausen noise (MBN). Based on the results or experiments, the relation betweeu hardened ...Hardened depths on steel samples are evaluated using a non-destructive technique based on the measurement of surface magnetic Barkhausen noise (MBN). Based on the results or experiments, the relation betweeu hardened depth and MBN is found, and a conclusion that the hardened depth can be measured by the way of measuring the MBN slgnals is obtained.展开更多
Magnetic Barkhausen noise ( MBN) is a phenomenon of electromagnetic energy due to the movement of magnetic domain walls inside ferromagnetic materials when they are locally magnetized by an alternating magnetic fiel...Magnetic Barkhausen noise ( MBN) is a phenomenon of electromagnetic energy due to the movement of magnetic domain walls inside ferromagnetic materials when they are locally magnetized by an alternating magnetic fields. According to Faraday's law of electromagnetic induction, the noise can be received by the coil attached to the surface of the material being magnetized and the noise carries the message of the characteristics of the material such as stresses, hardness, phase content, etc. Based on the characteristic of the noise, researching about the relationship between the residual stress in the welding assembly and the noise are carried out. Furthermore, data process is performed by RMS (Root Mean Square) equation and Power Spectrum analysis.展开更多
The Magnetic Barkhausen Noise (MBN) technology is a non-destructive method to measure the neutral temperature of thc CWR track. A series of in-field verifications and data comparison on Australian mainline tracks ha...The Magnetic Barkhausen Noise (MBN) technology is a non-destructive method to measure the neutral temperature of thc CWR track. A series of in-field verifications and data comparison on Australian mainline tracks have shown the results from that system are highly accurate and reliable. The system can be an accuracy and cost-effective tool to prevent the potential buckling and break of CWR rails. The physical backgrounds and features of the system are represented in this paper. The Darwin-Alice Springs Line is a newly constructed main line in Australia which is linked from the north and middle of Australia. Originally, this rail line is designed and constructed in a "cost-effective" way to a lower price, and the key parameters are relatively low. To maintain the stability of the CWR tracks in a very harsh environment, some new technologies such as the MBN technology were utilised. From the results of neutral temperature, it is found that the majority of them are very high. Combined with the calculation and finite element analysis, these problems evidenced that it is caused by the low toe load fastening system and high sleeper spacing. After that some suggestions are given to improve the stability of the CWR on the railway line.展开更多
Effect of ball scribing on magnetic Barkhausen noise (MBN) of conventional grain-oriented (CGO) and high- permeability grain-oriented (HGO) electrical steel was investigated. The results showed that after ball s...Effect of ball scribing on magnetic Barkhausen noise (MBN) of conventional grain-oriented (CGO) and high- permeability grain-oriented (HGO) electrical steel was investigated. The results showed that after ball scribing, root mean square of MBN (MBNrms) of CGO electrical steel increased 9.8% with 4 mm scribing spacing at 1.2 T, and that of HGO electrical steel apparently decreased 17.3% with 16 mm scribing spacing at 1.2 T. Through the formation and development of free magnetic poles and secondary magnetic domains due to compressive stress, primary magnetic domain space of grain-oriented electrical steel becomes smaller, which reflects as a variation of MBN in the macroscopic magnetic properties. Through correlation formula derivation of MBNrms and equilibrium distance between domain walls, effect of domain refinement on grain-oriented electrical steel was also interpreted, and optimum equilibrium distance between domain walls was determined.展开更多
Acoustic Barkhausen Emission (ABE) and Electromagnetic Barkhausen Emission (EBE) have been measured. Explanations of the response of nickel to an applied magnetic field are considered using energy density diagrams and...Acoustic Barkhausen Emission (ABE) and Electromagnetic Barkhausen Emission (EBE) have been measured. Explanations of the response of nickel to an applied magnetic field are considered using energy density diagrams and critical fields deduced using Kersten's modified theory. These theoretical models are correlated with ABE and EBE measurements, providing further confirmation of the origins of ABE being non-180° domain wall motion. This paper also shows that the motion of domain walls, on increasing the magnetising fields from saturation to satu -ration, follows the sequence of 71°-180° - 109°. Values of critical fields correponding to 71°, 180° and 109° wall motions in nickel are determined using these techniques .展开更多
对几种磁测残余应力的方法和特点进行了归纳对比,它们是磁巴克豪森效应应力检测方法,利用逆磁致伸缩效应测量应力,利用铁磁类材料的磁记忆检测应力分布,应力致磁各向异性法SMA(Stress-induced Magnetic Anisotropy)和磁致伸缩法(Magneto...对几种磁测残余应力的方法和特点进行了归纳对比,它们是磁巴克豪森效应应力检测方法,利用逆磁致伸缩效应测量应力,利用铁磁类材料的磁记忆检测应力分布,应力致磁各向异性法SMA(Stress-induced Magnetic Anisotropy)和磁致伸缩法(Magnetostriction)。从目前研究现状而言,利用Barkhausen效应实施铁磁类结构构件应力检测技术相对来说最为成熟和广泛,但它有自身的缺陷,故本文又介绍了1台新的磁力仪MAPS(Magnetic Anisotropy and Permeability System),并对MAPS及其他的磁力仪作了比较。展开更多
对几种磁测残余应力的方法和特点进行了归纳对比,它们是巴克豪森效应应力检测方法,利用逆磁致伸缩效应测量应力,利用铁磁类材料的磁记忆检测应力分布,应力致磁各向异性法SMA(Stress-induced Magnetic Anisotropy)和磁致伸缩法(Magnetost...对几种磁测残余应力的方法和特点进行了归纳对比,它们是巴克豪森效应应力检测方法,利用逆磁致伸缩效应测量应力,利用铁磁类材料的磁记忆检测应力分布,应力致磁各向异性法SMA(Stress-induced Magnetic Anisotropy)和磁致伸缩法(Magnetostriction).从目前研究现状而言,利用Barkhausen效应实施铁磁类结构构件应力检测技术相对来说最为成熟和广泛,但它有自身的缺陷,故又介绍了一台新的磁力仪MAPS,并对MAPS及其他的磁力仪作了比较.展开更多
文摘Magnetic Barkhausen Noise (MBN) is a phenomenon of electromagnetic energy emission due to the movement of magnetic domain walls inside ferromagnetic materials when they are locally magnetized by an alternating magnetic field. According to Faraday’s law of electromagnetic induction, the noise can be received by the coil attached to the surface of the material being magnetized and the noise carries the message of the characteristics of the material such as stresses, hardness, phase content, etc. Based on the characteristic of the noise, research about the relationship between the welding stresses in the welding assembly and the noise, the fatigue damage of the plate structure and the noise, and the influence of heat treatment and the variation of phase content to the noise are carried out in this paper.
文摘Hardened depths on steel samples are evaluated using a non-destructive technique based on the measurement of surface magnetic Barkhausen noise (MBN). Based on the results or experiments, the relation betweeu hardened depth and MBN is found, and a conclusion that the hardened depth can be measured by the way of measuring the MBN slgnals is obtained.
文摘Magnetic Barkhausen noise ( MBN) is a phenomenon of electromagnetic energy due to the movement of magnetic domain walls inside ferromagnetic materials when they are locally magnetized by an alternating magnetic fields. According to Faraday's law of electromagnetic induction, the noise can be received by the coil attached to the surface of the material being magnetized and the noise carries the message of the characteristics of the material such as stresses, hardness, phase content, etc. Based on the characteristic of the noise, researching about the relationship between the residual stress in the welding assembly and the noise are carried out. Furthermore, data process is performed by RMS (Root Mean Square) equation and Power Spectrum analysis.
文摘The Magnetic Barkhausen Noise (MBN) technology is a non-destructive method to measure the neutral temperature of thc CWR track. A series of in-field verifications and data comparison on Australian mainline tracks have shown the results from that system are highly accurate and reliable. The system can be an accuracy and cost-effective tool to prevent the potential buckling and break of CWR rails. The physical backgrounds and features of the system are represented in this paper. The Darwin-Alice Springs Line is a newly constructed main line in Australia which is linked from the north and middle of Australia. Originally, this rail line is designed and constructed in a "cost-effective" way to a lower price, and the key parameters are relatively low. To maintain the stability of the CWR tracks in a very harsh environment, some new technologies such as the MBN technology were utilised. From the results of neutral temperature, it is found that the majority of them are very high. Combined with the calculation and finite element analysis, these problems evidenced that it is caused by the low toe load fastening system and high sleeper spacing. After that some suggestions are given to improve the stability of the CWR on the railway line.
基金The financial support of the National Natural Science Foundation of China(Nos.51174057 and 51274062)the National High Technology Research and Development Program (No.2012AA03A503)
文摘Effect of ball scribing on magnetic Barkhausen noise (MBN) of conventional grain-oriented (CGO) and high- permeability grain-oriented (HGO) electrical steel was investigated. The results showed that after ball scribing, root mean square of MBN (MBNrms) of CGO electrical steel increased 9.8% with 4 mm scribing spacing at 1.2 T, and that of HGO electrical steel apparently decreased 17.3% with 16 mm scribing spacing at 1.2 T. Through the formation and development of free magnetic poles and secondary magnetic domains due to compressive stress, primary magnetic domain space of grain-oriented electrical steel becomes smaller, which reflects as a variation of MBN in the macroscopic magnetic properties. Through correlation formula derivation of MBNrms and equilibrium distance between domain walls, effect of domain refinement on grain-oriented electrical steel was also interpreted, and optimum equilibrium distance between domain walls was determined.
文摘Acoustic Barkhausen Emission (ABE) and Electromagnetic Barkhausen Emission (EBE) have been measured. Explanations of the response of nickel to an applied magnetic field are considered using energy density diagrams and critical fields deduced using Kersten's modified theory. These theoretical models are correlated with ABE and EBE measurements, providing further confirmation of the origins of ABE being non-180° domain wall motion. This paper also shows that the motion of domain walls, on increasing the magnetising fields from saturation to satu -ration, follows the sequence of 71°-180° - 109°. Values of critical fields correponding to 71°, 180° and 109° wall motions in nickel are determined using these techniques .
文摘对几种磁测残余应力的方法和特点进行了归纳对比,它们是磁巴克豪森效应应力检测方法,利用逆磁致伸缩效应测量应力,利用铁磁类材料的磁记忆检测应力分布,应力致磁各向异性法SMA(Stress-induced Magnetic Anisotropy)和磁致伸缩法(Magnetostriction)。从目前研究现状而言,利用Barkhausen效应实施铁磁类结构构件应力检测技术相对来说最为成熟和广泛,但它有自身的缺陷,故本文又介绍了1台新的磁力仪MAPS(Magnetic Anisotropy and Permeability System),并对MAPS及其他的磁力仪作了比较。
文摘对几种磁测残余应力的方法和特点进行了归纳对比,它们是巴克豪森效应应力检测方法,利用逆磁致伸缩效应测量应力,利用铁磁类材料的磁记忆检测应力分布,应力致磁各向异性法SMA(Stress-induced Magnetic Anisotropy)和磁致伸缩法(Magnetostriction).从目前研究现状而言,利用Barkhausen效应实施铁磁类结构构件应力检测技术相对来说最为成熟和广泛,但它有自身的缺陷,故又介绍了一台新的磁力仪MAPS,并对MAPS及其他的磁力仪作了比较.
