What is a microcomputer electronic tensile machine?
In today's era of rapid technological development, microcomputer electronic tensile machines, as a high-precision testing equipment, are widely used in the field of material mechanical properties testing. This article will introduce in detail the definition, working principle, application scenarios and comparison of popular models on the market to help you fully understand this equipment.
1. Definition of microcomputer electronic tensile machine
The microcomputer electronic tensile machine is a precision instrument controlled by a computer. It is mainly used to test the mechanical properties such as tension, compression, bending, and shearing of materials. Its core components include sensors, servo motors and microcomputer control systems, which can achieve high-precision and high-stability testing.
| Core components | Function |
|---|---|
| sensor | Measure force value changes in real time |
| Servo motor | Provide stable power output |
| Microcomputer control system | Control the testing process and process data |
2. Working principle
The microcomputer electronic tensile machine drives the transmission system through a servo motor to apply force to the sample, and at the same time collects force values and displacement data through sensors. The microcomputer system processes these data in real time, generates stress-strain curves, and calculates various mechanical parameters of the material.
| Test steps | Description |
|---|---|
| Specimen installation | Fix the specimen on the fixture |
| Parameter settings | Set test conditions in the software |
| Start testing | The device operates automatically and collects data |
| data analysis | Software automatically generates test reports |
3. Application scenarios
Microcomputer electronic tensile machines have a wide range of applications, covering almost all industries that require material mechanical properties testing.
| Industry | Application |
|---|---|
| metal material | Test the strength, elongation, etc. of metal |
| plastic rubber | Test elastic modulus and breaking strength |
| Textiles | Test the tensile properties of fibers |
| packaging materials | Test compression and tear resistance |
4. Comparison of popular models
The following is a comparison of popular microcomputer electronic tensile machine models on the market recently:
| Model | maximum load | Accuracy | price range |
|---|---|---|---|
| UTM-5000 | 50kN | ±0.5% | 30,000-50,000 |
| ELE-300 | 30kN | ±0.3% | 20,000-35,000 |
| TST-200 | 20kN | ±0.2% | 15,000-25,000 |
5. Purchase suggestions
When purchasing a microcomputer electronic tensile machine, you need to consider the following key factors:
| factors | Description |
|---|---|
| Testing requirements | Select the appropriate range according to the maximum load of the material |
| Accuracy requirements | High-precision testing requires the selection of higher-grade instruments |
| budget | Balance performance needs with budget constraints |
| After-sales service | Consider the supplier’s technical support capabilities |
6. Future development trends
With the development of intelligent manufacturing and Industry 4.0, microcomputer electronic tensile machines are developing in the direction of intelligence and automation. The following trends may appear in the future:
| Trend | Description |
|---|---|
| AI data analysis | Leverage artificial intelligence for more precise data analysis |
| remote monitoring | Realize remote control and diagnosis of equipment |
| Modular design | Test functions can be flexibly configured according to needs |
To sum up, the microcomputer electronic tensile machine is an indispensable and important equipment in the field of modern material testing. With the continuous advancement of technology, its application scope will be further expanded, providing more accurate and reliable testing methods for material research and development and quality control in various industries.
check the details
check the details
en
