DD262487A1 - DEVICE FOR DETERMINING PARAMETERS FOR THE ASSESSMENT OF THE METALLURGICAL QUALITY OF CAST MELTS - Google Patents

Abstract

Apparatus for the determination of parameters for the assessment of the metallurgical quality of cast melts applicable in the foundry industry. According to the invention, the device consists of a measuring crucible for receiving the molten metal into which a thermocouple protected by a tube protrudes. The tube is coupled to a transducer, this transducer is guided in a Hülse easily movable. The device allows the simultaneous recording of the cooling process and the shrinkage-expansion behavior by a Meßfuehler. This minimizes the influence on the solidification kinetics of the test specimen.

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a device for the quality assessment of cast alloys in the molten state by the simultaneous metrological detection and evaluation of the cooling process and the shrinkage-expansion behavior of a specimen during its solidification and further cooling.

Characteristic of the known state of the art

The recording of the cooling process and the shrinkage-expansion behavior of cast alloys, especially of cast iron, has long been the subject of numerous investigations. The recording of the shrinkage-expansion curves is usually carried out in the mold cavity projecting transmission rods that weld during solidification; the cooling process is detected by means of thermocouples.

The changes in length of the specimen occurring during solidification and further cooling are displayed by inductive displacement transducers.

A measuring arrangement based on these principles is used by Gedeonova, Z. (Foundry Technology 31 [1985] No. 7, pp. 207-211).

The test piece (25 χ 25 χ 200mm) is cast in an "open" mold.

This device has the disadvantage that the volume changes occurring in the vertical direction are not or only inaccurately detected by the recording in the horizontal direction transducer. The determined shrinkage-expansion curve therefore represents only an indefinable partial amount of the actual prevailing conditions, in which the reason for the relatively large spread of the measurement results is justified.

Another device which gave good reproducible results was described by Nandori, G. (Gießerei-Rundschau 29 [1982] No. 9,

Pp. 9-16).

Here, the specimen (0 30 χ 350 mm) is cast in a "closed" sample mold, the cooling curve over a thermocouple and the shrinkage-expansion curve on welding transmission rods and a measuring frame, which transmits the movements of the two bars as a cumulative effect determined.

The decisive disadvantages of this experimental design are that the two mold halves and the sprue must first be glued and then sealed with clay.

In addition, the measuring frame used complicates, from the point of view of operational use of the method, the device such that it has hitherto been used only under laboratory conditions.

In other experimental arrangements (foundry practice 1985 No. 17/18, p. 241-254 and Litejnoje Proizvodstvo 1984 No. 2, p.3-5) it was tried to use the measuring crucible of the classical thermal analysis and the shrinkage expansion

Detect behavior via additionally introduced transmission rods in the horizontal direction.

Disadvantageous here, however, are the multiplicity (a thermocouple with quartz glass protection tube, two transmission rods) of the transducers installed in the relatively small sample volume, which influence the kinetics of the solidification and thereby falsify the measurement results.

Another method (SU Patent No. 996084) has attempted to eliminate the most essential of the aforementioned disadvantages by an exchangeable mold.

The coupling of the vertically arranged test specimen takes place via a metallic "grain", which, however, has to be cooled in. In order to prevent jamming of the device, the use of a refractory molding material is required.

Furthermore, to increase the accuracy of a specially made sheathing is used, which consists of one of the alloy to be cast close approaching substance.

The necessity of producing special shaped platelets, sheathing and exchangeable "cores" and their cooling must still be regarded as too expensive in terms of operational application.

In addition, in this test arrangement, the recording of the cooling curve of the specimen was not taken into account, whereby the validity of the method is significantly restricted.

Object of the invention

The aim of the invention is to realize on the basis of a sample Abbe the automatic recording and evaluation of the shrinkage-expansion behavior of cast alloys, in particular cast iron, with sufficient accuracy and minimum, applicable under operational conditions, technical expenses while doing the cooling of the specimen to derive from the parameters determined therefrom on the quality of the alloy to be cast and to initiate any necessary corrective measures before pouring the melt.

Explanation of the essence of the invention

The invention is based on the technical object to realize the simultaneous detection of the cooling curve and the shrinkage-expansion behavior of a specimen with Hiife of only one sensor.

According to the invention the object is achieved in that the device consists of a mold with a measuring pot in which a specimen is.

The mold is vertically divisible, open at the bottom and designed with a constriction at the top as a sprue system.

Measuring pot and mold are mounted in a sleeve and fixed by a screwed metal ring, which is designed as an abutment, clearly in their position.

The sleeve, in which a bore is made, which corresponds to the diameter of the specimen, is provided with openings for venting.

The coupling between the sensor and the transducer is given by a connecting piece, which is guided easily movable in a further sleeve.

The operation of the device can be described as follows:

After the mold has been filled, the solidification of the test specimen in the upper part of the device starts first. This ensures that the specimen "hangs up" in the constriction of the mold and that the changes in length occurring during solidification and further cooling become almost exclusively downwards.This deliberately forced movement of the test specimen becomes, on the one hand, a ring formed by the abutment metal ring and on the other hand, supported by the introduced into the lower part of the sleeve bore, which allows a deflection of the Meßtiegelbodens.

The openings provided in the sleeve for venting allow the escape of the casting gases and thus counteract a falsification of the measurement results, as a result of a building up in the interior of the device gas pressure.

The tube that welds in during the solidification of the specimen fulfills two functions. On the one hand it protects the thermocouple against mechanical destruction, which is why it can be reused, on the other hand it also serves as a probe and replaces the other known technical solutions additionally installed transmission rod (rods) for detecting the shrinkage-expansion behavior.

In this way, it is possible to significantly reduce the number of necessary for the assessment of the metallurgical quality of the melt probe (a thermocouple with protective tube, two shrinkage-expansion transmission rods) (no more transmission rods required), whereby the direct influence of the probe on the Kinetics of solidification of the specimen and the associated falsification of the results are minimized.

The main advantages of the device are:

1. The simultaneous recording of the cooling curve and the shrinkage-expansion behavior by a probe, whereby the falsification of the measurement results due to the influence of the solidification kinetics of the sample is minimized by the probe.

2. The rapid and uncomplicated interchangeability of the measuring crucible after the measurement due to the vertical division of the mold and a simple screw connection between the metal ring and sleeve, whereby the time interval between two sample casts is determined essentially only by the duration of the cooling of the sample.

3. The automatic recording, evaluation and output of the measurement results and the associated ease of handling of the device, which is limited exclusively to the casting of the sample and the replacement of the caliper.

embodiment

The invention will be explained in more detail in the following embodiment.

As shown in Fig.! shows, the measuring crucible 11 is mounted for receiving the molten metal in a vertically divisible mold 3.

In the measuring crucible 11 is from below, protected by a quartz glass tube 6 (0 6 χ 0.5 χ 60 mm). Thermocouple 5 (PtRh30-Pt) introduced.

Measuring pot 11 and mold 3 are located in a sleeve 7 and are fixed by a metal ring 4 clearly in position. The coupling from the quartz glass tube 6 (measuring sensor) to the position sensor 10 located in the lower part of the device takes place via a connecting piece 9 guided in a second sleeve 12.

The specimen 1 (0 30 χ 270 mm) is cast in such a way that the bath level of the liquid metal comes to lie above the constriction 2 of the mold 3 after completion of mold filling.

Due to the constriction 2 sets the solidification at this point first, so that the specimen 1 "hangs" in the upper part of the device.

The screwed onto the sleeve 7 metal ring 4 prevents displacement of the mold 3 and forms the required abutment.

The protruding into the sample 1 thermocouple (0 0.35 mm) 5 ensures the recording of the cooling curve of the specimen 1 and is protected by the Quarrglasröhrchen 6 from mechanical damage.

As a result of the welding of the quartz glass tube 6 during solidification it simultaneously transmits the linear changes in length of the specimen 1, which are due almost exclusively down due to the constriction 2 in the mold 3 and the abutment (metal ring 4). This is supported by the introduced into the sleeve 7 bore 8 whose diameter corresponds to that of the sample 1 and ensures the changes in length over a deflection of the Meßtiegelbodens 11.

The movement caused by the quartz glass tube 6 is transmitted to the stylus of the inductive displacement transducer 10 (e.g., TIC 16.1 or IWT302) via a connector 9 which is easily movably guided in a second sleeve 12.

In order not to falsify the measurement by means of a gas pressure building up inside the device, openings for venting (slots: 120 × 14 mm) are provided in the sleeve 7, which allow the discharge of the casting gases.

The change in the movement of the stylus of the transducer 10 as a function of time is converted into electrical signals and passed to an analog-to-digital converter, which simultaneously receives the thermoelectric element 5 emitted by the thermoelectric voltage.

In the analog-to-digital converter, the input signals are amplified and digitized.

The output digital measured values are then taken over by a process computer of the type MC-80 in a software-agreed cycle time, stored and sent for further evaluation.

Due to the automatic evaluation by the computer, the output of the measurement results can be made in a very short time via the screen or downstream peripherals.

The structurally simple design of the device (divisible mold 3, plug connection between the mold 3 and the sleeve 7, screw connection between the sleeve 7 and the metal ring 4) allows rapid interchangeability of the Meßtiegelel 11, whereby the time span between two sample outgaugs substantially only from the Duration of cooling of the sample 1 dependent

Due to the automatic Meßwertabfrage, -Übernahme and processing (software controlled), the handling of the device is limited solely to the replacement of the Meßtiegelel 11 and the casting of the sample. 1

Claims (6)

1. A device for determining parameters for the assessment of the metallurgical quality of cast melts on the detection of the cooling curve and the shrinkage-expansion behavior of a test specimen, characterized in that in a measuring crucible (11) for receiving the molten metal, a thermocouple (5) protrude that is protected by a tube (6) which is coupled via a connecting piece (9) with a position transducer (10), and the measuring crucible (11) in a mold (3) mounted in a sleeve (7) and fixed by a metal ring (4). 2. Apparatus according to claim 1, characterized in that the mold (3) divisible, open at the bottom and above with a constriction (2) is designed as a sprue system. 3. Apparatus according to claim 1, characterized in that on the sleeve (7) screwed metal ring (4) is designed as an abutment. 4. Apparatus according to claim 1, characterized in that the sleeve (7) is provided with openings for venting and a bore (8) corresponding to the diameter of the specimen (1). 5. Apparatus according to claim 1, characterized in that the connecting piece (9) to the transducer (10) in a sleeve (12) is guided easily movable. 6. The device according to claim 1, characterized in that the tube (6) once the thermocouple (5) protects against mechanical destruction, but on the other hand simultaneously represents the transmission rod for detecting the shrinkage-expansion behavior.