Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Methods of Controlling Lift - off in Conductivity Invariance Phenomenon for Eddy Current Testing
View through CrossRef
<p>Previously, a conductivity invariance phenomena (CIP) has been
discovered – at a certain lift-off, the inductance change of the sensor due to
a test sample is immune to conductivity variations, i.e. the inductance –
lift-off curve passes through a common point at a certain lift-off, termed as
conductivity invariance lift-off. However, this conductivity invariance
lift-off is fixed for a particular sensor setup, which is not convenient for
various sample conditions. In this paper, we propose using two parameters in
the coil design – the horizontal and vertical distances between the transmitter
and the receiver to control the conductivity invariance lift-off. The relationship between these two parameters
and the conductivity invariance lift-off is investigated by simulation and
experiments and it has been found that there is an approximate linear
relationship between these two parameters and the conductivity invariance
lift-off. This is useful for applications where the measurements have
restrictions on lift-off, e.g. uneven coating thickness which limits the range
of the lift-off of probe during the measurements. Therefore, based on this relationship, it can
be easier to adjust the configuration of the probe for a better inspection of
the test samples.</p>
Institute of Electrical and Electronics Engineers (IEEE)
Title: Methods of Controlling Lift - off in Conductivity Invariance Phenomenon for Eddy Current Testing
Description:
<p>Previously, a conductivity invariance phenomena (CIP) has been
discovered – at a certain lift-off, the inductance change of the sensor due to
a test sample is immune to conductivity variations, i.
e.
the inductance –
lift-off curve passes through a common point at a certain lift-off, termed as
conductivity invariance lift-off.
However, this conductivity invariance
lift-off is fixed for a particular sensor setup, which is not convenient for
various sample conditions.
In this paper, we propose using two parameters in
the coil design – the horizontal and vertical distances between the transmitter
and the receiver to control the conductivity invariance lift-off.
The relationship between these two parameters
and the conductivity invariance lift-off is investigated by simulation and
experiments and it has been found that there is an approximate linear
relationship between these two parameters and the conductivity invariance
lift-off.
This is useful for applications where the measurements have
restrictions on lift-off, e.
g.
uneven coating thickness which limits the range
of the lift-off of probe during the measurements.
Therefore, based on this relationship, it can
be easier to adjust the configuration of the probe for a better inspection of
the test samples.
</p>.
Related Results
Fundamental study on rope vibration suppression by middle transfer floor using risk information
Fundamental study on rope vibration suppression by middle transfer floor using risk information
Lifts are essential for means of vertical transportation. Recently, the lifts installed in the high-rise buildings are long travel, thus the lift ropes are becoming longer. The nat...
Methods of Controlling Lift - off in Conductivity Invariance Phenomenon for Eddy Current Testing
Methods of Controlling Lift - off in Conductivity Invariance Phenomenon for Eddy Current Testing
<p>Previously, a conductivity invariance phenomena (CIP) has been
discovered – at a certain lift-off, the inductance change of the sensor due to
a test sample is immune to co...
Methods of Controlling Lift-off in Conductivity Invariance Phenomenon for Eddy Current Testing
Methods of Controlling Lift-off in Conductivity Invariance Phenomenon for Eddy Current Testing
Previously, a conductivity invariance phenomena (CIP) has been discovered – at a certain lift-off, the inductance change of the sensor due to a test sample is immune to c...
Low-cost eddy covariance: a case study of evapotranspiration over agroforestry in Germany
Low-cost eddy covariance: a case study of evapotranspiration over agroforestry in Germany
Abstract. Eddy covariance has evolved as the method of choice for measurements of the ecosystem-atmosphere exchange of water vapour, sensible heat and trace gases. Under ideal cond...
Pig Lift: A New Artificial Lift Method
Pig Lift: A New Artificial Lift Method
Abstract
Artificial lift of oil wells is a fairly broad subject. There are many different methods available but in a few cases none of them turns out to be a fit ...
Gas Lift - Past & Future
Gas Lift - Past & Future
Abstract
This paper will describe the evolution of gas lift systems over the past few decades, making parallels with other artificial lift technologies (ESP, SRP, an...
Artificial Lift Selection Strategy to Maximize Unconventional Oil and Gas Assets Value
Artificial Lift Selection Strategy to Maximize Unconventional Oil and Gas Assets Value
Abstract
The challenges of producing and lifting unconventional oil and gas economically is no doubt the most daunting phase of unconventional oil and gas developmen...
The Future of Plunger Lift Control Using Artificial Intelligence
The Future of Plunger Lift Control Using Artificial Intelligence
Abstract
Plunger lift is a form of artificial lift popular due to its low installation and operating costs. Historically plunger lift was reserved for low producing ...