CS203256B1 - Method of measuring the sintering capacity - Google Patents

Description

The invention relates to a method for measuring sintering.

Methods for measuring sintering are known in that the sample placed in the housing is subjected to pressure for a period of time to form a compact sinter. The caking is then evaluated as the force required to crush the sinter, or as the force required to penetrate the rod through the sample. In some cases, shear strength is taken as an expression of caking.

A method is also known in which a penetration rod is forced into a sintered sample by means of a pneumatic cylinder. The pressure in the pneumatic cylinder is monitored visually by the operator on a manometer and records the maximum value detected at the time the sample disintegrates.

This method is subjected to a subjective error resulting from the reading of the maximum pressure achieved. The standard deviation of 10 repeated measurements on samples of the same type of material is between 10 and 25%. The method cannot detect the course of the crushing force.

These drawbacks are overcome by the sintering method of the present invention, which is characterized in that the mechanical resistance of the sintered sample to the continuously destroying force is measured and recorded over time, and the sintering value is calculated from these values as the work required to destroy the sample.

The method according to the invention makes it possible to measure the caking in a new way, not as a maximum value of the recorded destruction force but as the work required to destroy the sample. This destruction work is proportional to the area defined by writing the resistance of the sintered sample against the destructive force acting during crushing. The numerical value of this area, determined either by planimetric notation or by direct integrator, is then referred to as sintering. The graphical record of the resistance of the sintered sample against the destructive force is characteristic of various types of material. It is usually characterized by several maxima. The method according to the invention makes it possible to compare the results with the values obtained previously when measuring the maximum crushing pressure.

Replacement of the maximum destructive force by destructive work gives a better image and caking of the type of material. The method is not burdened by a subjective error of the operator, since it allows writing of the measured quantity. The measuring device is very sensitive and precise, the method according to the invention makes it possible to measure even very low caking values, practically from zero. it is possible to vary the scale by switching the sensitivity of the registration apparatus to achieve the same accuracy at different absolute sintering values. Quality can be assessed by the variance of the repeated measurements. used anti-caking materials'.

The method according to the invention is suitable for measuring the sintering of powdery, lump and granular materials such as fertilizers, technical salts, etc.

FIG. 1 shows the sample preparation device; FIG. 2 shows the evaluation device schematically. The following is a description of the apparatus together with an explanation of the implementation of the method of the present invention.

The sample material 4 is poured into the cylindrical sleeve 1 with a shoulder 3 at the lower end and the sleeve 1 is closed at the upper end by a lid 2. The lid 2 is then loaded with a constant force. After the load time has elapsed, the material sample 4 forms a sinter which:

Claims (1)

SUBJECT Method for measuring sintering characterized in that the mechanical resistance of the sintered sample is measured and recorded as a function of time due to the shoulder 3 and the friction against the walls is held firmly in the housing 1. After the lid 2 has been removed, the housing is inserted in the evaluation device. Housing 1, with sintered sample 4 se. places a table 5 which, by means of a drive mechanism, is lifted at a constant speed against the penetration rod 6 loosely housed in the guide 7. The rod 6 gradually penetrates into the sintered sample 4, which is disrupted - until it completely breaks its cohesion and; The fragmented material sample 4 falls into the container 8. The resistance that the sintered sample 4 penetrates through the rod 6 is transmitted by the rod 6 to the strain gauge measuring unit 9. This measuring unit 9 converts the mechanical force h and the electrical signal which is transmitted to the recording apparatus 10. the apparatus 10 records a continuous, course of destruction force, respectively. the resistance of the sintered pattern, which is characteristic of different types of sintered material. YNÁLEZU. , against the continuously acting, destructive force and from these values the sintering value is calculated as the work needed to destroy the sample.