CS215534B1 - Method of inserting the microbar in the chamber for fixing the tensile strength limits on the microbars under decreased and increased temperatures - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a method for inserting a micro-disc into a chamber for determining the tensile strength of a micro-disc at reduced and elevated temperatures ranging from -196 ° C to +800 ° C.

At present, micro-ticks are increasingly being used in the tensile test, especially when the small dimensions or properties of the test material do not allow the production of standardized macro-ticks. The use of micro-boots in normal temperature tests proceeds without major problems. Of course, only suitable blasting machines with sufficient sensitivity, in particular electronic machines, are required. They are used to determine the ultimate tensile strength of micro-shoes very precisely. The values thus obtained are fully comparable with those obtained in the tensile test on standardized macrotots.

However, the application of the micro-discs is still limited in that they cannot be used in the tensile test at reduced and / or elevated temperatures, since the small cross-section of the micro-disc substantially prevents its insertion into the heating furnace. In this case, the micro-disc is stressed or even broken by possible bending after screwing the upper rod.

These disadvantages are overcome by the method of inserting a micro-disc into the chamber according to the invention, designed to determine the tensile strength of the micro-discs at reduced and elevated temperatures. The detection method is carried out in chambers on electronic blasting machines equipped with micro-heating devices. Both ends of the micro-rotor are clamped in the reduction threading jaws of the upper and lower rods and at least one control thermocouple is connected to the micro-rotor and / or to the reduction threading jaws. The principle of the method according to the invention consists in screwing the micro-disc to be tested in the vertical position into the reducing thread of the lower rod outside the chamber. Then, in the same position, the upper threading jaw and the upper rod are screwed onto the upper thread of the micro-rod. The assembly thus formed is fastened with its upper end to the lower end of the auxiliary rod, which is passed through the tubular space of the chamber. By means of the upper rod, the kit with the fixed micro-body is drawn into the chamber space and then fixed to the fastening jaws of the blasting machine.

The method according to the invention allows for absolutely reliable tests on micro-bodies at reduced and elevated temperatures in the range of -196 ° C to +800 ° C. The method according to the invention completely eliminates the possibility of undesirable additional bending stresses of the test micro-wheel before the test, which could significantly affect the result of the whole test or even its breaking, because the actual suspension of the whole set into the jaws of the blasting machine is a very demanding task. The measurements performed and their evaluation have fully demonstrated that the method of the invention fully guarantees uniaxial stress, which is a prerequisite for micro-test testing to obtain accurate results. The process according to the invention has proven to be particularly successful in testing special deficit materials of small dimensions, for example molybdenum or tungsten-based sheets. At the same time, it also allows testing of materials that have not yet been guaranteed for their properties, such as brittleness. In particular, it is a galvanoplastically produced nickel-iron alloy exhibiting high strength and low toughness. At the same time, the process according to the invention brings considerable economic advantages in terms of material and labor savings while guaranteeing the quality and reproducibility of the tests.

The method of providing the ultimate tensile strength of the micro-boots at elevated temperatures is carried out in a heating chamber, preferably a three-zone furnace with perfect control. Two test rods with reducing thread inserts and an auxiliary rod are also used. The test rods and auxiliary rods are made of refractory material. The insertion of the micro-disc into the air heating chamber focuses in particular on the placement of the entire system of the lower rod - the micro rod - the upper rod, including the threaded reducing jaws, in the heated space of the furnace chamber. This is done by screwing the micro-disc into the lower reducing threaded jaw, fixed in the lower rod, which is fixed in a vertical position. The upper threaded jaw and the upper rod are screwed onto the upper thread of the micro-rod from above. Then, a control thermocouple is attached to the micro-disc, or possibly to both reducing thread jaws. In this way, the entire system "lower link - - micro-top link" is connected. The assembly is then pulled down from below into the furnace chamber by means of a separate auxiliary rod whose length is greater than the height of the furnace chamber. The auxiliary rod has a transverse handle at its upper end. The control thermocouples are guided through the lower opening of the chamber. In particular, the small clearance between the upper edge of the furnace chamber and the cross member of all blasting machines is an important factor.

The auxiliary rod is first passed through the inner tube of the furnace chamber, then its lower end is connected to the entire "lower rod - micro-top rod" assembly and by pulling up the whole assembly is placed in the heated chamber of the furnace chamber. Then the auxiliary linkage is disconnected and the two free ends of the test linkages are rigidly connected to the jaws of the shredder. Determination of the tensile strength at reduced temperatures by the method according to the invention is carried out in a separate chamber, in which the inner casing is firstly placed by means of reducing threading jaws the micro-disc to be tested and then fixed to the jaw of the blasting machine. Then, the inner shell of the chamber is filled with coolant. The material of the threading jaws is selected particularly with respect to abnormally low test temperatures, i.e. one that is not prone to cracking at low temperatures.

Claims (1)

Method for inserting a micro-disc in a chamber for determining the tensile strength of micro-discs at reduced and elevated temperatures in chambers on electronic blasting machines provided with micro-disc heating devices in which both ends of the micro-disc are clamped in reducing threading jaws of the upper and lower rods / or at least one control thermocouple is connected to the reducing thread jaw, characterized in that the test microtube is screwed out of the chamber space in the vertical invention into the reducing thread jaw of the lower rod, and then the reducing thread jaw is screwed onto the upper thread. the upper rod and then the assembly thus formed is fastened with its upper end to the lower end of the auxiliary rod, which is pre-threaded through the tubular chamber space and by means of which the fixed micro-kit is pulled into the chamber space and then fixed into the fastening jaws of the blasting machine.