System and method to provide material property measurement...

Measuring and testing – Vibration – Resonance – frequency – or amplitude study

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

Reexamination Certificate

active

06601451

ABSTRACT:

FIELD OF THE INVENTION
The instant invention relates to systems and methods for performing material property measurements, and more particularly to systems and methods for identifying material property defects through the use of ultrasonic measuring equipment.
BACKGROUND OF THE INVENTION
Most, if not all, consumer and industrial products, equipment, and component parts carry with them some form of serial number or product identification code information. One function of this serial number or product identification information is to individually identify particular products or equipment for warranty and maintenance service tracking. Another function, and with particular classes of consumer and industrial products or component parts possibly a primary function, is to serve as a mechanism to track ownership in case of theft or use in crime.
While many products and component parts include separately affixed identification plates or labels including the serial number or product identification code information, particular classes of products and components have this information stamped or engraved in the product or component part itself. Probably two of the most well known consumer products and component parts that utilize this more permanent technique of stamping or engraving product serial number information thereon are firearms and some automotive parts, e.g. engine blocks. As with other products and components parts, these stamped or engraved serial numbers serve to identify and allow the tracking of proper ownership in case of theft, or use in a crime. However, many criminals have recognized that the serial number information may well provide the authorities the very information that would lead to their arrest, and so have engaged in the removal of the serial number information. Often times the criminals simply machine off the stamped or engraved serial number.
Unfortunately, with current technology the tracking of proper ownership of these products and component parts once the serial number has been machined off, absent other evidence, has proven to be extremely difficult for law enforcement officials. Since many criminals routinely engage in the removal of stamped or engraved serial number information from auto parts and fire arms in attempt to conceal their or the rightful owner's identity, there exists an urgent need for new technology that enables the recovery of this machined-away serial number information.
The ability to extract serial number information from products and components that have been subject to or used in a crime would greatly enhance law enforcement's ability to apprehend criminals and return property to its rightful owner. The stamping and engraving processes used to place the serial number on the product or component not only results in a visually perceptible impression on the surface of the product or component, but it also introduces a distortion in the microstructure of the material itself well below the surface indentation. As recognized by the inventor of the instant application, the micro-structural distortion is localized to the serial number impression and remains even after the visually perceptible surface indentation has been removed through a machining operation. Unfortunately, since this micro-distortion is localized to the small material volume of the serial number impression, conventional ultrasonic techniques of detecting variations in a material volume are unable to detect and map these distortions.
Measurements of acoustic velocity and attenuation are used in various applications to detect changes in material properties. For example, uniformity in metal microstructure can be sensed by monitoring uniformity in acoustic velocity and attenuation. Such measurements have traditionally been performed using ultrasonic signal propagation paths with lengths measured in tens or hundreds of wavelengths. This is due to the fact that the ability to detect a subtle difference in acoustic velocity or attenuation increases directly with the length of material through which the signal propagates. Such a measurement could be used, for example, to determine uniformity in material processing from one batch of material to the next by comparing differences in measured acoustic properties in representative samples, each being several inches in length.
Such measurements may be performed using instrumentation configured as indicated in FIG.
13
. In such a configuration, an ultrasonic pulse is transmitted through a specimen
21
several inches long by placing two ultrasonic transducers
23
,
25
on either end of the specimen
21
, one
23
to transmit and the other
25
to receive. Typical transducers might be 0.5 inch in diameter, and be design to transmit broadband ultrasonic signals with a 5 MHz center frequency. Ultrasonic wavelengths typically range from 0.1 to 1.0 mm.
An obvious drawback of the measurement technique illustrated in
FIG. 13
is the inability to detect localized differences in material properties within the sample volume. That is, the system of
FIG. 13
has poor spatial resolution. One technique that does allow the detection of localized variations in material acoustic properties is scanning acoustic microscopy. This technique is similar in approach to that shown in
FIG. 13
except that it does not use transmitting
23
and receiving
25
transducers on opposite end of a specimen
21
. Instead, a pair of focused transducers
27
,
29
are used to propagate a surface wave a short distance over the surface of a specimen
21
as illustrated in FIG.
14
.
A surface wave is a special type of wave in a solid material that clings to the surface, as opposed to penetrating through the solid. As illustrated in this
FIG. 14
, a surface wave can be generated by launching a pulse through water toward the surface at a specific critical angle, slightly greater than the critical angle for total wave reflection. When the pulse hits the surface, it will generate a surface wave pulse within the solid. As the surface wave propagates over the surface, it radiates energy back into the water. By using a pair of focused transducers, one
27
to generate a surface wave pulse at some position and a second
29
to detect the pulse radiated back into the water a short distance away from the generation point, a signal path can be established that includes a small volume of solid material.
The surface wave path L can be adjusted in length from a fraction of a wavelength to a few wavelengths. Acoustic attenuation and velocity in the solid material can be determined by monitoring received signal transit times and amplitudes. By mechanically scanning the transducer pair over the specimen surface, an image can be formed of material properties throughout a thin layer near the specimen surface, with a relatively high spatial resolution. The drawback of the scanning acoustic microscopy measurement depicted in
FIG. 14
is that, while measurements can be made with high spatial resolution (e.g. a fraction of a wavelength), measurement sensitivity to variation in material properties suffers because of the relatively short propagation path L in the solid material. As such, small residual material distortions remaining after a serial number has been machined off a component cannot be reliably recovered. A need exists, therefore, for a measurement system and method that has high sensitivity to material properties, as with the measurement system of
FIG. 13
, yet at the same time has high spatial resolution, as with the measurement system of FIG.
14
.
SUMMARY OF THE INVENTION
It is therefore an object of the instant invention to overcome these and other problems existing in the art. More specifically, it is an object of the instant invention to provide a system an a method to aid in the recovery of serial number or other identification information from consumer or industrial products and component parts that have had this information machined away. It is a further object of the invention to provide a system and method to detect small, local residual material variations

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

System and method to provide material property measurement... does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with System and method to provide material property measurement..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and System and method to provide material property measurement... will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-3090247

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.