SU921665A1 - Method of determining core adhesion to heated equipment - Google Patents

Description

(54) METHOD FOR DETERMINING FORCES FOR INTERACTION OF A ROD WITH HEATED ACCESSORIES

I

The invention relates to foundry, in particular, to the technology of making casting molds and cores.

A known method for determining the interaction forces, namely, adhesion, molding compounds with a model is the Levelink method, based on the determination of the separation force of the sample mixture from the model surface. The method is designed to determine the force of separation of the sample sample from the surface of the model in order to measure the value of the adhesion of the mixture to the surface of model C,

The disadvantage of this method is the inability to heat the sample, which makes it impossible to use this method for mixtures that are set in a snap. In addition, this method allows to determine the interaction of mixtures only with a horizontal surface.

The closest solution and the effect achieved is a method.

including compression of the composite tooling with a clamping mechanism, filling the equipment with a core mixture, heating the mixture and removing the rod from the equipment with simultaneous recording of adhesion forces.

This method allows you to determine the shear force of the sample relative to the heated equipment and to obtain the total value of the interaction forces

10 rods with tooling, including frictional forces, formed by pressing the rod onto the tooling as a result of thermal expansion of the rod and adhesion of the rod to the surface of the tooling 2.

15

F essay of this method is the inability to determine the adhesion force of the rod to the heated snap.

The purpose of the invention is the definition

20 interaction forces, including the adhesion forces of the CERN, by reducing the forces resulting from the thermal expansion of the rod. 9 The goal is achieved by the fact that in the method involving the compression of a composite tooling by a pressing mechanism, filling the equipment with a rod mixture, heating the mixture and removing the rod from the equipment while simultaneously registering adhesion forces, the component tooling is removed from the action of the clamping mechanism. The drawing shows the device implementation of the proposed method. The use of the proposed method for determining the interaction forces will allow, in comparison with the existing methods, to improve the accuracy of determining the adhesion forces of a rod to a heated snap-in under conditions as close as possible to the conditions of the technological process. An example. A device has been created for testing this method. Using the device identified

From the table it can be seen that the adhesion force of the rod with heated equipment for the mixture with phenol alcohol makes 25-35 of the total value of the interaction forces, and for the mixture with KF-90 resin - 15-2.0%.

Claims (2)

1. Medvedev Ya.I. and Valisovsky I.V., Technological testing of molding materials. M., engineering, 1973, p.109. 2. In the same place, p.108. 4 forces of interaction of the rod with heated equipment, made from mixtures with phenol-alcohol and KF-90 resin. The device is a heated cassette 1, mounted 3 housing 2 on the base 3, into which the snap-in is inserted, which is a composite cast-iron sleeve with an inner conical surface. Surface finish Рч220о Diameter of a conic surface - 25 mm, height - 15 mm. Before filling the equipment with the mixture, its composite suits are pressed against each other with the help of a special pressing mechanism 5. Then, before the rod is removed using the ejector 6, the clamping mechanism is turned off, the components of the tooling caused by the thermal expansion of the rod are dispersed, thus terminating the action of these forces. At this point, only the force of adhesion acts between the rod and the tooling surface.