1. This law applies to all magnetic materials regardless of their macroscopic order (ferromagnetic, antiferromagnetic or ferromagnetic).

2. Every ferromagnetic substance has its own individual temperature, called the Curie temperature, or Curie point, above which it loses its ferromagnetic properties.

3. 4 The anisotropic magnetic effect of ferromagnetic films is discussed.

4. 2 Both stator and rotor are made of ferromagnetic materials.

5. 3 The first structure includes a ferromagnetic material.

6. 10 Can we make semiconductors that are ferromagnetic at room temperature?

7. CVT high voltage fuse; blow; ferromagnetic resonance; saturation; analysis.

8. 1 CVT high voltage fuse; blow; ferromagnetic resonance; saturation; analysis.

9. Cementite is metallic and ferromagnetic with a Curie temperature of about 187 ∘C

10. 30 Stress Effect on the Spectrum of Magnetic Induced Waveform in Ferromagnetic Steels.

11. 26 The text mostly study the hysteresis model of the ferromagnetic material.

12. The micro-bomb casing must be made of some kind of a ferromagnetic material.

13. 15 For ferromagnetic material, the demagnetizing field is almost opposite to the magnetizing field.

14. Magnetic boards, namely boards of ferromagnetic material for mounting magnets, in particular memoboards

15. The magnetic aerosol paint composition includes volatile organic solvents, an alkyd resin, and ferromagnetic particles.

16. Rope made of synthetic fibers having a ferromagnetic element providing an incication of local strain

17. 7 A number of rather exotic ferromagnetic materials have been studied to this end.

18. 20 The self - magnetization and the magnetic domains are two basic properties of the ferromagnetic materials.

19. 11 The ferromagnetic resonance stabilized voltage supply and silicon - controlled rectifier are introduced briefly on early railway coach.

20. 6 Measuring ferromagnetic component volt - ampere characteristic in low frequency condition can offset deficiency of power - frequency experiment.

21. An annular ferromagnetic flux intensifying washer (160) is positioned adjacent to the base wall of the coil casing.

22. 17 A new developed technique in nondestructive testing for residual stress of the ferromagnetic materials is discussed.

23. Therefore, below the Curie temperature virtually all of the dipoles in a ferromagnetic material will be aligned.

24. Use of ferromagnetic electrodes for detecting the spin introduced big leaps in tunnel magnetoresistance, increase in spin lifetimes and spin accumulation.

25. The permanent magnet magnetically biases the magnetoresistor, and the magnetoresistor senses rotation of the non-ferromagnetic compressor wheel.

26. This behavior is attributed to the paramagnetic nature of austenite, while both martensite and ferrite are strongly ferromagnetic.

27. 18 The temperature dependence of exchange bias and coercivity of ferromagnetic layer and antiferromagnetic gain layer is discussed.

28. Eddy currents induced in a ferromagnetic slab of arbitrary cross section placed in an alternating transverse magnetic (TM) field are analyzed.

29. 16 The friction coefficient of ferromagnetic flow under boundary lubrication exhibits regular change in the presence of applied direct electric fields.

30. In other words, it is ferromagnetic, a property shared by no other instance of carbon's many structures (called allotrope).

31. Coercivity definition: the magnetic-field strength necessary to demagnetize a ferromagnetic material that is Meaning, pronunciation, translations and examples

32. Under project AMORE (Advanced Magnetic Oxides for Responsive Engineering) a new method of fabrication of ferromagnetic half metal oxides has been developed.

33. 9 In other words, it is ferromagnetic, a property shared by no other instance of carbon's many structures (called allotrope).

34. 12 The relationships between the grain size of ferromagnetic material and the strength and waveform characteristic parameters of Barkhausen noise (BN) were studied.

35. 5 The ferroelectromagnetic lattice is a magnetoelectric coupling system in which the ferroelectric order and(anti)ferromagnetic order coexist simultaneously below a certain temperature.

36. 24 The variation of the peak peak value with the depth of rectangular slot was affected by magnetization of ferromagnetic material.

37. The winding member is placed on a coil plate made of electrically non-conducting, non-ferromagnetic material and is connected thereto.

38. 25 We study the equilibrium and non-equilibrium Kondo effect in series-coupled double quantum dots connected to ferromagnetic leads both in parallel and antiparallel configurations.

39. Coercivity: The magnetic field intensity needed to reduce the magnetization of a ferromagnetic material from complete saturation to zero, usually measured in teslas.

40. Bohos Aprahamian Maik Streblau Currently increasingly widespread the application of the induction hardening of ferromagnetic details, due to the high efficiency and universality of this kind of

41. 27 The numerical analysis shows that it is reasonable to use magnetostrictive material model to analyze the magnetoelastic buckling of cantilevered ferromagnetic plates in transverse magnetic field.

42. An algorithm is developed for the calculation of steady-state currents and fluxes in nonlinear electromagnetic AC networks taking into account nonlinearity and losses in ferromagnetic elements.

43. 19 The distinct differences on the domain structures in MFM images were observed due to the non-traditional ferromagnetic nature of the semiconductor nanostructures.

44. 29 According to this paper, the frequency and intensity of the signal attenuation on transmission line are mainly depended on the ferromagnetic resonance frequency and eddy current loss.

45. When a current is supplied to the magnetizing winding, the ferromagnetic core of the inductor is magnetized, as are the neighbouring cores via the air gap.

46. 13 Barkhausen effect is produced by ferromagnetic material under varying magnetic field, it can be used as a new method for nondestructive testing of residual stress.

47. 14 The thermodynamic properties of ferromagnetic substance are given and used to discuss the performance of a magnetic Stirling refrigeration cycle. Some general conclusions are obtained.

48. Antiferromagnetic materials are similar to ferromagnetic materials, in the sense that their magnetism also arises from the cooperative phenomenon which forms domains but with a distinct difference.

49. Project researchers therefore designed new sensor elements that combine ferromagnetic properties and piezoelectric ones to create an AC magnetic field, optimising voltage output and removing unnecessary coils.

50. Coercivity Coercivity shows strong size-dependency as it first increases to a maximum with decrease in particle size and then falls toward zero, which is attained at critical size making ferromagnetic particle superparamagnetic

51. As the particle size increases the Coercivity remains zero up to the critical volume where magnetic moments of the particles become blocked and these particles exhibit ferromagnetic behavior and

52. The shift of the optical absorption edge in ferromagnetic semiconductors is investigated theoretically with a model, in which a conduction electron is coupled by exchange to the ion spins.

53. 8 An easier method of measuring Curre Points of ferromagnetic materials has been presented through an experiment. Its principle is to observe the disappearance of the magnetic hysteresis loop.

54. Thulium is ferromagnetic below 32 K, antiferromagnetic between 32 and 56 K, and paramagnetic above 56 K. Thulium has two major allotropes: the tetragonal α-Tm and the more stable hexagonal β-Tm.

55. The results were explained by the classical equation for the motion of a domain wall in ferromagnetic systems and by the thermal activation of magnetic domain walls from pinning sites.

56. Coercivity, also called the magnetic Coercivity, coercive field or coercive force, is a measure of the ability of a ferromagnetic material to withstand an external magnetic field without becoming demagnetized.

57. 21 Magnetopneumography is a method to identify dust loads by measuring the remanent field of ferromagnetic dust respired into the lungs. It's a non-invasive, highly sensitive and reproducible technique.

58. Coercivity [ kō′ər-sĭv ′ĭ-tē ] The magnetic flux density needed to reduce the magnetization of a material (especially a ferromagnetic material) from complete saturation to zero. Coercivity is measured in teslas.

59. 23 A design of differential stress sensor with six magnetic pole based on counter magnetostriction effect of ferromagnetic materials is given, and the torsion test and uni-tension stress test are made.

60. In electrical engineering and materials science, the Coercivity, also called the magnetic Coercivity, coercive field or coercive force, is a measure of the ability of a ferromagnetic material to withstand an external magnetic field without becoming demagnetized.

61. 28 Meanwhile, a stator slot wedge 70 is arranged in the non ferromagnetic material slot 90 opening to fix the stator coil (www.Sentencedict.com) air gap is provided between the stator core 40 and the stator core

62. In electrical engineering and materials science, the Coercivity, also called the magnetic Coercivity, coercive field or coercive force, is a measure of the ability of a ferromagnetic material to withstand an external magnetic field without becoming demagnetized

63. A temperature sensor includes a plurality of rectangular shaped amorphous magnetic alloy strips connected magnetically, wherein at least one of the strips has a predetermined ferromagnetic Curie temperature, and another strip has a magnetic permeability well exceeding 2,000.

64. Our open-end coaxial probe measurements at the end of the paper attempt to observe the weak ferromagnetic resonance due to spin canting seen particularly in Antiferromagnetic resonance investigations on crystalline [alpha]-[Fe.sub.2][O.sub.3], also known as the mineral hematite (6), (8).

65. The first and second ferromagnetic layers have respective first and second magnetic anisotropies that are alignable substantially parallel to each other in a first state and substantially antiparallel in a second state of the electric-field-controllable magnetic tunnel junction.

66. The absolute values of biaxial stresses in a ferromagnetic material (16) are measured using a probe (12) which comprises an electromagnet (26), a sensor (32) for stress-induced magnetic anisotropy (SMA) and a sensor (30) for directional effective permeability (DEP).

67. An RF Circulator is a three-port ferromagnetic passive device used to control the direction of signal flow in a circuit and is a very effective, low-cost alternative to expensive cavity duplexers in base station and in-build­ing mesh networks

68. In materials science, the Coercivity, also called the coercive field or coercive force, of a ferromagnetic material is the intensity of the applied magnetic field required to reduce the magnetization of that material to zero after the magnetization of the sample has been driven to saturation.

69. The invention is distinguished in that at least one ferromagnetic material (1) which is acoustically coupled to the sound waves and which is capable of vibration is provided, wherein at least one coil (3) inductively coupled to the material (1) is produced for the purpose of converting permeability changes in the material (1) into an electrical alternating quantity.

70. In order to avoid negative effects of such a current loop, a connection pin (110) is anchored in a base body out of the ferromagnetic circuit, on the side of the armature opposite to the contact spring (7). The connection pin (110) conducts the load current of the contact spring through a hoop section (111) that extends over the armature.

71. The invention relates to a method for producing a magnetizable metal shaped body comprising a ferromagnetic starting material that is present in powder and in particulate form, using the following steps: - first compaction of the starting material (S3) such that adjoining particles become bonded to each other by means of positive adhesion and/or integral bonding in sections along the peripheral surfaces thereof and while forming hollow spaces, - creating an electrically isolating surface coating on the peripheral surfaces of the particles in regions outside the joining sections (S4) and – second compaction of the particles (S5) provided with said surface coating, such that the hollow spaces are reduced in size or eliminated.