Add to ORKGSurface domain patterns in electrical steel, which appear under rotational magnetisation, were noted to be comparable to those which are observed under high compressive stress. This paper presents comparison of peak to peak magnetostriction of Epstein strips under high compression magnetised along rolling and transverse directions, and disc samples under rotational and uniaxial magnetisation with no external stress applied. Good correlation was found between magnetostriction measurement results obtained in the rolling direction of non-oriented Epstein strips under high compression and disc samples under rotational magnetisation. Also it was observed that the rotational magnetostriction of grainoriented electrical steel is greater than its u...
In this paper, we propose a method to identify the magnetostrictive behavior of electrical steel she...
Magnetostriction is a source of vibration and acoustic noise of electrical machines and it can be hi...
In real electromagnetic devices the non-oriented electrical steel is often subjected to various mech...
Surface domain patterns in electrical steel, which appear under rotational magnetisation, were noted...
Magnetostriction data of non-oriented electrical steel is needed for calculation of deformation and ...
Magnetostriction in nonoriented (NO) electrical steel is a possible source of vibration and acoustic...
Magnetostriction is an important source of vibration and acoustic noise in electromagnetic cores. Th...
The magnetostriction of Epstein strips of 0.30 mm thick grain oriented electrical steel cut using th...
Magnetostriction in non-oriented electrical steel is a source of vibration of electrical machine cor...
Magnetostriction of nonoriented electrical steel was measured under rotating flux magnetization cond...
The magnetostriction in electrical steel under rotational magnetization is usually measured with cro...
The magnetostriction of the core laminations is one of the primary causes of transformer acoustic no...
Magnetostriction strain measurements on the samples of grain oriented and non-oriented electrical st...
In this paper, we propose a method to identify the magnetostrictive behavior of electrical steel she...
Magnetostriction is a source of vibration and acoustic noise of electrical machines and it can be hi...
In real electromagnetic devices the non-oriented electrical steel is often subjected to various mech...
Surface domain patterns in electrical steel, which appear under rotational magnetisation, were noted...
Magnetostriction data of non-oriented electrical steel is needed for calculation of deformation and ...
Magnetostriction in nonoriented (NO) electrical steel is a possible source of vibration and acoustic...
Magnetostriction is an important source of vibration and acoustic noise in electromagnetic cores. Th...
The magnetostriction of Epstein strips of 0.30 mm thick grain oriented electrical steel cut using th...
Magnetostriction in non-oriented electrical steel is a source of vibration of electrical machine cor...
Magnetostriction of nonoriented electrical steel was measured under rotating flux magnetization cond...
The magnetostriction in electrical steel under rotational magnetization is usually measured with cro...
The magnetostriction of the core laminations is one of the primary causes of transformer acoustic no...
Magnetostriction strain measurements on the samples of grain oriented and non-oriented electrical st...
In this paper, we propose a method to identify the magnetostrictive behavior of electrical steel she...
Magnetostriction is a source of vibration and acoustic noise of electrical machines and it can be hi...
In real electromagnetic devices the non-oriented electrical steel is often subjected to various mech...