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Hysteresis Loop Tracer

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Hysteresis Loop Tracer
  • Measures magnetic parameters accurately
  • Demagnetisation,eddy currents and sample cross-sectional area have been accounted for
  • Capable of detecting the number of magnetic phase present in a sample
  • Computer interface provided
Introduction
A precise knowledge of various magnetic parameters of ferromagnetic substances, viz. coercivity, retentivity, saturation magnetization and hysteresis loss, and ability to determine them accurately are important aspects of magnetic studies.

The information about the aforementioned properties can be obtained from a magnetic hysteresis loop which can be traced by a number of methods in addition to the slow and laborious ballistic galvanometer method. Among the typical representatives of AC hysteresis loop tracers, some require the ring form of samples while others can be used with thin films, wires or even rock samples. Ring form samples are not always practically convenient to make while in others demagnetisation effects sometime become quite important.
The present set-up can accept the samples of thin wires of different diameters. The demagnetisation effects, different diameters of samples and eddy currents (due to the conducting property of the material) has been taken into account within the design or graphically.
Design Principle
When a cylindrical sample is placed coaxially in a periodically varying magnetic field the magnetisation in the sample also undergoes periodic variation. This variation is packed up by a coil placed coaxially with the sample.
For the uniform field Ha produced, the effective field H acting in the cylindrical sample will be

H = Ha-NM            or

    ........ (1)

where M is magnetisation, N is normalised demagnetisation factor including 4p and J is the magnetic polarisation defined by

B = m 0H + J

Solving (1), (2) and (3) gives

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Image49.gif (1421 bytes)

Based on these equations the electronic circuit has been designed to give values of J and H and hence the hysteresis loop. Further different magnetic phases present in the sample may also be identified by electronically manipulating the pick-up signal.
Description of the Set-up
Basic Circuit
The magnetic field has been obtained with an ac mains driven multilayered solenoid.This magnetic field has been calibrated with a Hall Probe for uniformity and correspondence with the magnetic field calculated through ac current passing in the solonoid. A small resistance in series with the solenoid serves the purpose of taking a signal e1corresponding to H2 (corresponding to dJ/dt) is taken from the pick-up coil placed at the centre of the solenoid and contains the sample. It is integrated and corrected for phase. This signal is then subtracted from the reference signal e1 and amplified to give the signal corresponding to J. The e1 signal is also subtracted from 3e3 in correct ratio (to account for demagnetisation and area ratio) and amplified to give signal corresponding to H.e2 is also passed through the differentiator for getting signal corresponding to d2J/dt2 which is used for phase identification.
Computer Interface,
This interface enables the user to get a pole of the B-H Loop on the computer screen as soon as a magnetic field is set on the hardware. Procedure for initial setting and conduction of experiment are available through the software provided with the unit. In the end, data would be stored in excel formate
Applications
The following magnetic parameters can be measured by this set-up:
•             Coercivity
•             Retentivity
•             Saturation magnetisation
•             Various magnetic phase identification
•             Hysteresis loss
The equipment is complete in all respect, including a set of samples (wires of Nickel, and different grades of iron etc.). A Cathode Ray Oscilloscope will however be required.
Ordering Details:
Model LSHLT-111C
 

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