DE19514281A1 - Ultrasonic coupling agent - Google Patents

Abstract

An ultrasonic coupling agent is disclosed for filling out the gap between an object to be examined and an ultrasonic testing head that can be moved in relation to the surface of the object. The coupling agent has a gelatinous, pasty to liquid consistency. It contains small spheres made of a solid material.

Description

The invention relates to an ultrasonic coupling means for filling len a gap between an object to be examined and an ul ultrasound probe that can be moved relative to the surface of the object, wherein the coupling agent has a gel-like to liquid consistency. Ultrasonic coupling agents are intended to ensure that there is a gap between the test head and the object to be examined no unwanted inclusions, in particular there are no air bubbles. Air bubbles would make the scarf Spreading changed significantly, air bubbles could cause errors in the object pretend that are actually not there.

A coupling agent of the type mentioned at the outset is proposed by the applicant offered, which is composed of water, glycol and active ingredients. Cop Pel means of the type mentioned are also from a prospectus Echo Ultrasound (USA) known. This offers, for example, under Ultragel II to the registered trademark. After the da tenblatt is a coupling agent of high impedance and high Viscosity, it is used for critical ultrasonic test methods, at for example for aircraft and components of nuclear plants. The Kop Pelmittel can be easily removed with water, it only dries very much slowly out.

A large number of other Kop pelmittel offered, mostly in several viscosity grades, the viscosity ten range from liquid to gel. The con understood how they use gelatin products, such as exhibit. Pasty means non-flowable, but deformable. The consi The coupling agent is selected so that in the respective application a gap between the ultrasonic probe and the surface of the examined object is completely and uninterruptedly filled. The  Coupling agents are said to be easy to examine on a surface of the let the object be applied, just as easily they should escape again let away. They should be the necessary in a given temperature range have a consistency.

The disadvantage of the coupling means of the type mentioned is Ver sliding of the test head against the surface of the test object. Especially with coupling agents of low viscosity, for example wise pasty coupling agents, is a movement of the test head over the Surface often hindered by the fact that the test head is on the upper sucked in or not with the same force continuously over a surface Surface moves. However, such pasty coupling agents are used like one, because they are not independent on the surface of the under Distribute searching object and also on sloping surfaces, etc. are good to use.

Coupling agents according to the prior art can cause increased wear the probes occur. It has been found that in many cases the the sound impulses to be measured fluctuate relatively strongly. Overall, often A reliable test result can only be achieved with great care.

This is where the invention begins. It has set itself the task of Ultrasonic coupling means of the type mentioned at the beginning form that its advantages are essentially retained, the sliding properties of a test head over the coupling means and against the Surface of an object can be significantly improved.

This object is achieved in that the coupling agent is small, from one Contains solid-made balls.

By adding balls, the sliding properties of a test head fes considerably improved compared to an object to be tested. It is enough relatively few balls between the test head and the one currently being examined Surface to noticeably improve the sliding properties. The balls preferably have a diameter which is smaller than the layer thickness an applied coupling agent. So the balls used are relatively small. You preferably also have only one subordinate Share in the total weight of the coupling agent, their weight share is  preferably below 20, in particular below 10%.

The diameter of the balls is subject to several test conditions adapted, especially the frequency of the probe used, the Rau the surface of the object to be examined, etc. Frequencies in the range of 1 to 4 megahertz have balls in one Diameter distribution from 90 to 130 microns has proven to be favorable. For higher frequencies are more suitable spheres with diameters from 50 to 90 microns. For frequencies below 1 megahertz and with awake roughness depth are suitable for ball diameters above 100 micrometers, for example, 200 microns in diameter.

By a higher addition of glass balls to the coupling agent or by Balls made of materials with greater acoustic impedance, e.g. Wol fram, copper, nickel, steel, the acoustic impedance of the coupling means increase and the loss of reflection when sound enters materials high sound impedance, e.g. B. steel, reduce significantly. In this way the penetration capacity of the test facility can be increased.

Suitable as gel-like or liquid components of the coupling agent already known materials used as coupling agents, for example Glycol, glycerin, oils, fats, e.g. B. silicone greases, rich with liquids gels.

The balls are well distributed in the coupling means. For pasty coupling agents and coupling agents of lower viscosity separate spheres and egg the coupling agent is not noticeable. With coupling agents with a higher Vis Cosiness it may be necessary to mix the balls and the actual thing Restore coupling agent before the coupling agent is used. You can avoid segregation by having actual paddocks used with specific weights that largely correspond to the specifi correspond to the weight of the balls used.

In the event of problems with wetting the balls through the actual coupling coupling Appropriate chemical reagents can be added to the product sufficient wetting and thus sufficient adhesion between the Ensure the surface of the balls and the actual coupling agent. This also mixes the above-mentioned segregation.  

Actual coupling agents that are water-soluble are preferably used are, or are dilutable with water. The disposal of the Invention According coupling means happens that the coupling means from rinsed object, for example with water. Through strong ver thinning of the coupling agent is achieved that the glass balls on the ground of the collecting vessel can settle in another version they can be caught with a simple filter. Are suitable as filters for this metal mesh, as they are also used for oil filtering, but fabric filters can also be used, such as for Coffee filters are known.

Basically there is no problem if glass balls in the ground or get to a landfill. If lead-free glass is used, persist no toxic problems, rather glass balls behave like sand, d. H. they serve to loosen the soil.

Under the actual coupling agent, the gel-like to liquid portion of the understood coupling means according to the invention. The coupling agent itself is the mixture of the balls and the actual coupling agent. The egg Common coupling agents do not differ from those already known Coupling agents that are currently on the market or are known.

It is possible to add a fluorescent additive to the balls. In this way, simple evidence is obtained that the Kop pelmittel is present on a surface and how much of it is consumed was brought.

As an object to be tested, basically all objects come into question that can be tested with ultrasound. In particular, the area of application the invention the non-destructive testing, for example the Testing of steel or light metal parts.

If in the above in particular on glass spheres as spheres gen, so this is because glass balls in the dimensions mentioned solutions are available in sufficient quantities and are also inexpensive. Adding glass balls to the actual coupling agent increases the Ge The total price of the coupling agent is practically imperceptible, since the actual cop  Pellmittel and glass balls priced about the same order of magnitude lie.

Additions of 5% (weight percent) balls have proven to be favorable. With smaller additions, advantages are also achieved because it is sufficient in principle if the test head is supported by three balls. Through the Balls will allow the test head to move in all directions testing surface reached.

Claims (10)

1. Ultrasound coupling means for filling a gap between an object to be examined and an ultrasound probe that is movable relative to the surface of the object, the coupling means having a gel-like, pasty to liquid consistency, characterized in that it has small, balls made from a solid contains ent. 2. Ultrasonic coupling agent according to claim 1, characterized in that the balls have a diameter that is between 50 microns and 1 millimeter is preferably between 60 microns and 200 microns meters. 3. Ultrasonic coupling agent according to claim 1, characterized in that the balls are made of glass, preferably lead-free glass represents are. 4. Ultrasonic coupling agent according to claim 1, characterized in that the balls made of a material with the highest possible sound impedance, e.g. B. Tungsten, copper, nickel, steel. 5. Ultrasonic coupling agent according to claim 1, characterized in that in the coupling agent 2 to 20 percent by weight, preferably 3 to 10 Ge percent by weight and in particular 5 percent by weight of balls are.   6. Ultrasonic coupling agent according to claim 1, characterized in that the object to be examined is a solid. 7. Ultrasonic coupling agent according to claim 1, characterized in that there balls in a given diameter range, e.g. B. plus / minus 10% of a given nominal diameter. 8. Ultrasonic coupling agent according to claim 1, characterized in that the surface of the object to be examined has a roughness points and the diameter of the balls is larger than the measure of the Rau ability. 9. Ultrasonic coupling agent according to claim 1, characterized in that it contains glycol, glycerin or mineral oil. 10. Ultrasonic coupling agent according to claim 1, characterized in that the sound impedance of the pasty or liquid part of the coupling the sound impedance of the material from which the balls are made are, if possible, corresponds.