Measuring and testing – Vibration – Resonance – frequency – or amplitude study
Patent
1991-10-07
1994-02-15
Chapman, John E.
Measuring and testing
Vibration
Resonance, frequency, or amplitude study
73 1201, 73 1214, G01H 308
Patent
active
052856879
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The present invention relates to a process for the acoustic examination of monoliths for damage as well as a device for carrying out the process.
Monolithic carrier elements, as are used, for example, during the manufacture of waste gas catalysts and soot filters for motor vehicles, consist usually of relatively porous ceramic materials. The considerable porosity of the material used leads to possible damage of the monoliths during their manufacture or further processing; in particular, during handling of a monolith, fine cracks can form at the latter's surface or its interior. Such cracks render the carrier element practically unusable, since they constitute a starting point for a possible break of the monolith at a later time; a destruction of such cracked monoliths may take place already during relatively small loads, for example, due to jarring during their processing and/or during operation. For this reason, monolithic carrier elements must not be processed further, even if they have been damaged only slightly.
Therefore, it is required to examine carrier elements for possible damage prior to further processing. In addition to an optical examination, which naturally can address merely the condition of the surface, an acoustic examination takes place as well. For this purpose, a trained person lightly taps the monolith and evaluates the noise subsequently emitted by the monolith. For this purpose, the understanding is taken into consideration that cracks in the interior of the monolith influence the latter's vibration behavior and thus the radiated frequencies.
With such an acoustic examination, various disadvantages are connected: For one thing, the reproduceability is not satisfactory, because the subjective sound perception by the person conducting the test is critical to the result of the examination. Also, the striking location and strength, carried out manually in the known process for acoustic examination, influence the result of the examination inasmuch as the resulting variation in loudness of the radiated sound alters the sound perception of the examining person. Thus, all in all, a low degree of reliability results from the conventional acoustic examination, which in practice is expressed by a large portion of monoliths which can neither be clearly classified as flawless nor clearly as damaged. After, for safety reasons, only those monoliths are processed further, which have been classified as clearly flawless, the shown unreliability of the testing method used leads to a relatively high rejection rate during the production and thus to higher manufacturing costs.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to create a process for the acoustic examination of monoliths for damage, which distinguishes itself by a high degree of reliability.
According to the invention, this object is attained by means of a process comprising the following procedural steps: of a hard striker; monolith is analyzed by means of a frequency analyzer in the form of an evaluation unit; undamaged monoliths.
Through the use of a frequency analyzer for determining pressure/frequency distribution of the radiated noise, the uncertainties resulting from the known testing process through subjective hearing perception of the test personnel are reliably excluded. The comparison of the analysis result with a reference curve applicable to undamaged monoliths also contributes to the increase in the reliability of the testing process. In this connection, it is also of great importance to realize that undamaged and damaged monoliths, particularly with respect to their sound pressure distribution at high frequencies (for example, between 4 and 12 kHz), are distinguishable, while human hearing has its greatest degree of sensitivity near approximately 1 kHz. The fact that the sensitivity of human hearing within the frequency spectrum, which is of considerable significance for distinguishing between damaged and undamaged monoliths, is considerably less than in the case o
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patent: 4858469 (1989-08-01), Hosgood et al.
patent: 5144838 (1992-09-01), Tsubol
Kugland Peter
Ringel Werner
Santiago Enrique
Chapman John E.
Zeuna-Starker GmbH & Co. KG
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