Views: 280 Author: Kaylee Publish Time: 2023-11-16 Origin: Site
The double column universal tensile machine is primarily useful for the examination of metal and non-metallic materials, including rubber, plastic, wires and cables, optical fibre cables, safety belts, belt composite materials, plastic profiles, waterproof rolls, steel pipes, copper profiles, spring steel, bearing steel, stainless steel (such as high hardness steel), castings, steel plates, steel strips, and non-ferrous metal wires Two point extension (with an extensometer required) and other examinations. This device utilises an electromechanical integrated design and is mostly made up of load driving mechanisms, colour inkjet printers, force sensors, and transmitters. Computers and microprocessors are also a part of this device. In addition to having a large measurement range for both loading speed and force, it also has a high degree of precision and sensitivity when it comes to determining and managing load and displacement. In addition to this, it is able to carry out tests involving automatic control for constant velocity loading and displacement. The floor standing model, the styling, and the paintwork have been taken into full consideration the relevant aspects of contemporary ergonomics and industrial design.
A sort of testing machine known as an electronic universal testing machine is one that is capable of conducting a variety of mechanical tests on materials, including shear testing, bending testing, tension testing, and compression testing. The machine is responsible for conducting these examinations on the various types of materials. Its primary use is at institutions that are dedicated to scientific research because of the many beneficial qualities it possesses, such as the absence of pollutants, low noise levels, and high levels of efficiency. This is because it has relatively low levels of noise. Maintenance on the electronic universal testing equipment must be performed on a regular basis in order to guarantee that it will continue to function appropriately.
Is there any pertinent requirement to inspect the main machine of the testing machine, paying particular attention to the pipeline that links to the hydraulic pump station to check if there is any oil leakage in the pipeline and to establish whether or not the jaw is worn? Also, is there any relevant requirement to identify whether or not the jaw is worn? In addition, is it necessary to determine whether or not the jaw is worn? If such were the case, then this criterion would be one of the factors that would be considered. In addition to that, check to see if any of the anchor bolts have become dislodged in any manner.
The oil supply control cabinet, which is one of the most important parts of the machine, is the primary contributor to the power drive component. This is because the oil supply control cabinet is where the oil is stored. Due to the fact that this is the case, the inspection of the oil source control element should not be carried out in a sloppy fashion; rather, it should be treated with a great deal of seriousness instead. Checking the operational status of each solenoid valve as well as the functionality of the motor for the oil pump is an important necessity at the same time. Both of these items require an examination right now.
Hydraulic oil is commonly referred to as the "blood" of the machine; in the same way that the oil in our regularly used automobiles needs to be replaced after a certain amount of mileage, the same principle applies to electronic testing equipment. Hydraulic oil should be changed at the recommended intervals. After approximately one year of use, the same grade of anti-wear hydraulic oil that was initially poured into a hydraulic system needs to be replaced.
In order to maintain order within the computer system of the double column universal tensile machine, a controller is required. It is necessary to have a speed regulation system in order to guarantee that the servo motor will rotate at the correct speed. After being slowed down by the deceleration system, the moving crossbeam is subsequently driven up and down by a precise screw pair. This continues until the crossbeam reaches its final destination. This makes it possible to put the sample through a number of different mechanical performance tests, including as tensile, compressive, bending, and shear testing. However, when it comes to the specific use of the double column universal tensile machine, it is hard to totally get rid of friction. When the friction resistance reaches a certain threshold, the tensile machine will cease working because of the damage produced by friction. This will occur when the friction resistance hits the threshold.
1.There will be friction between the guide wheel and the pillar, which is classified under the category of physical friction.Method of manipulation: In order to lessen the amount of frictional resistance that exists between the gaps, lubricating grease can be added between them.
2.When installing a dual column universal tensile machine, an uneven installation of the behaviour subject or different installation and adjustment of the left and right cylinder clamps can cause an error in the sliding friction hazard indication. This error can occur after the specimen has been clamped because the guide wheels on both sides of the operating platform touch the support side. A certain amount of damage will be caused to the apparatus if the precise measurement of the tensile resistance value is not accurate.
Techniques of manipulation: It is imperative to adhere to the procedure and approach laid out in the user manual while installing an electronic universal testing equipment. This information is provided for your benefit. If you hurry through the installation or do it wrong, you could end up with a lot of headaches.
3. Friction may develop between the force measuring piston rod and the hydraulic cylinder if the geometric correctness of either of these components deviates due to stains or if they rust as a result of stains. Sliding friction force will rise with time if the double column electronic tensile machine is not maintained for an extended period of time. This can be avoided by performing routine maintenance on the machine.
The electronic universal testing machine should undergo timely and routine inspection and maintenance in order to extend its useful life. The method of handling requires that this be done in a timely manner.