DE19915906C2 - Corrosion test device - Google Patents

Description

The invention relates to a corrosion test device according to the Ober concept of the main claim.

They are condensate testers in accordance with DIN 50017 or DIN 50018 known for constant climate and climate change tests, in which the in water in a floor pan is heated to about 40 ° C, so that there is a relative humidity of more than 95% in the test room. A material test cabinet constructed according to this DIN is for example known from DE 32 03 471 A1.

A disadvantage of these known devices is that they are not controllable Thawing of test objects can take place and in particular that in Ab dependency of the material used for the test room, be it stainless steel, Polyester, PVC or acrylic glass or depending on the construction or the thermal insulation of the test room a more or less star ke influence on the thawing of the samples takes place, so that the result Corrosion test tests in one and the same device due to drafts or other environmental influences vary greatly can. The different chemical-physics caused by the design conditions, especially in the upper part of a test room to a very different condensation behavior and as a result to very different erosion rates and thus also to very strongly differing test results, so that the repeatability Such a corrosion test test can rather be assessed as minor. The documentation of such a test is also incomplete because the  Ambient conditions outside of a corrosion tester are not be recorded. Known climate chambers, DE 27 21 862 B2, Test chambers for simulating climate parameters, DE 29 47 829 A1, or climate cabinets, DE 37 27 298, have exactly these disadvantages.

The object of the invention is to provide a corrosion testing device in a controlled condensation with high repetition accuracy is feasible. Furthermore, every corrosion test should be like this can be documented that a comparability of test results different test room designs can also be achieved can.

The solution to this problem is in connection with the generic term Features according to the invention in the characterizing part of Main teaching given technical teaching.

The corrosion device and the measuring arrangement allow control the temperature difference within a specified tolerance range and thus the realization of a controlled condensation behavior. This prerequisite often limits that in practice by users insufficient spreading of the removal rates to practical tolerances.

The fact that the housing cover as a double shell with an inner scha le and an outer shell protecting them from external influences is led, both delimit a space and that in the Corrosion test device a heating and / or cooling device for the Inner shell of the housing ceiling and inside the test chamber in the Be range of the housing cover another temperature sensor to that in the Be the temperature sensor arranged in the floor pan is arranged, the climate in the test chamber can be independent of external influences  sen, such as drafts or solar radiation, whereby by the determination of the temperature difference between the two temperature guides an optimal difference between the water bath temperature and the Temperature in the condensation zone in the upper area of the test room adjust and keep upright over the desired test duration holds, if this is desired.

In contrast, such an inventive corrosion testing device allows set for the devices of the Tech nik via the measuring arrangement, the control of the temperature difference in within a specified tolerance range and thus a control measurable and documentable condensation behavior. The so won The removal rate data show very narrow tolerances.

Further advantageous refinements of the subject matter of the invention arise with and in combination from the further subclaims.

According to a particularly preferred embodiment of the inventive The corrosion test device is in the outer shell and in nenschale formed space of the housing cover a Kühlvor arranged direction, which has a fan, the cooling air through a Intake air opening in the housing ceiling sucks in through the intermediate conveyed through the room and out of an exhaust air opening while doing so if necessary, the inner shell of the housing ceiling cools down to one maintains the desired temperature level. Cooling or heating the inner shell are alternatively also about a liquid or Peltier Elements conceivable.  

As a special feature, a heater for the inner shell to be inserted so that to maintain a front determined temperature difference, the inner shell is also heatable.

For this purpose, the corrosion test device is preferably provided with a control tion, which, among other things, serves as input signals for the tempera temperature values of the temperature sensors are processed and the preset values Adjusted parameters in narrow tolerance ranges.

According to a further preferred embodiment of the invention can the test chamber be designed pressure-tight and either with Generate pressure connections or yourself with positive and / or negative pressure be equipped devices so that the test conditions can be adapted in a wide range, with other liquids Use as water for the operation of the corrosion test device can find. With such a test chamber, for example, atmospheres at different altitudes than normal but also other aggressive operating environments of a device and simulate their corrosion behavior or also corrosion processes accelerate further to the time-lapse of an examination procedure.

In a further advantageous embodiment of the inventive Corrosion test device can be abge on a sample depot Apply the test specimen with a DC voltage so that from the generated potential difference of the condensing out what an extension of the test area or an acceleration for the test object results in a test procedure.  

An embodiment of the inventive corrosion is also advantageous test device equipped with an irradiation device, the in the area of the housing cover and / or the side walls and / or built into the sampling opening or, if necessary, into the test room is settable, so that additional or alternatively in the test chamber Aging tests can be carried out.

Below is an embodiment of the invention based on the Drawings described in more detail. Show it:

Fig. 1 shows a corrosion test device in a front view

Fig. 2 shows the corrosion testing device according to FIG. 1 in a sectional side view.

The corrosion test device 1 has a test chamber 2 , which has a floor pan 3 which can be heated with a heater 17 , and an opening 5 in the side walls 4 and a housing cover 10 which is designed as a double shell made of an inner shell 11 and an outer shell 12 . The bottom trough 3 and the side walls are provided with insulation 21 or egg ner themselves consist of strong plastic sheets 4, wherein the suspension device is milled 22 for the sample depot 6 in these plastic plates. 4 The removal opening 5 consists of a glass door. The inner shell 11 and the outer shell 12 limit a space in which a fan 16 is arranged, which sucks in cold air through an inlet air opening 14 and past the inner shell 11 and in doing so cools it out of an exhaust air opening 15 .

A heater 20 can also be arranged in the supply air flow, so that the inner shell 11 of the housing cover 10 can also be heated if necessary.

A first temperature sensor 8 , which is connected to the controller 9 of the corrosion test device 1 , is arranged in the test chamber 2 in the area of the floor in or above the floor pan 3 or below or above the level 23 of the water in the floor pan 3 , as well a second temperature sensor 13 , which is arranged in the area of the cover 10 Be. Optionally, a third temperature sensor 19 can be arranged at the level of the test object 7 in the test chamber 2 or on the test object 7 itself, which is also connected to the controller 9 of the corrosion test device 1 .

A lighting or radiation device 18 is arranged below or within the housing cover 10 , with which radiation-related aging processes can be simulated, alternatively to a condensate water test or together with it.

Not shown in the drawing is an embodiment of the Korrosi onsprüfvorrichtung 1 , the test chambers 2 is pressure-tight or one in which different potentials in the test chamber 2 can be placed.

Claims (8)

1. Corrosion test device with a control and a test chamber with a chamber floor with a heated floor pan, side walls, a removal opening, a sample depot for the placement of test specimens, a temperature sensor for the temperature in the floor pan and with a housing ceiling, characterized in that the housing ceiling ( 10 ) is designed as a double shell with an inner shell ( 11 ) and an outer shell ( 12 ), both of which limit an inter mediate space and that in the corrosion testing device ( 1 ) a heating and / or cooling device for the inner shell ( 11 ) of the housing cover ( 10 ) and within the test chamber ( 2 ) in the area of the housing cover ( 10 ) a further temperature sensor ( 13 ) is arranged. 2. Corrosion test device according to claim 1, characterized in that a cooling device is arranged in the space between the outer shell ( 11 ) and inner shell ( 12 ), which has a fan ( 16 ) and that the space is a supply air opening ( 14 ) and spaced from has an exhaust air opening ( 15 ). 3. Corrosion test device according to one of the preceding claims, characterized in that a heater ( 20 ) for the inner shell ( 11 ) is arranged in the intermediate space. 4. Corrosion test device according to one of the preceding claims, characterized in that the control ( 9 ) is designed so that with it in the test chamber ( 2 ) a predetermined temperature difference between the temperature of the liquid in the floor pan ( 3 ) and the area of the housing cover ( 10 ) is maintainable. 5. Korrosionsprüfvorrichtung according to any one of the preceding claims, characterized in that in the region of a specimen (7) or to a parked on a sample depot (6) test specimen (7) a zusätz Licher temperature sensor (19) is arranged, which with the control (9 ) connected is. 6. Corrosion test device according to one of the preceding claims, characterized in that the test chamber ( 2 ) is formed pressure-tight and can be acted upon with positive or negative pressure and that the corrosion test device ( 1 ) sen with corresponding Druckanschlüs or with positive and / or negative pressure generating Devices is equipped. 7. Corrosion test device according to one of the preceding claims, characterized in that it has a voltage source and connec tion lines and a test specimen ( 7 ) and / or other construction parts in the test chamber ( 2 ) can be acted upon with voltage. 8. Corrosion test device according to one of the preceding claims, characterized in that it has an irradiation device which in the area of the housing cover ( 10 ) and / or the side walls and / or the removal opening ( 5 ) is installed or can be used in the test room if required is.