What is a computerized servo tensile and pressure testing machine?
In the fields of industrial manufacturing, materials science and quality inspection, the computerized servo tensile and compression testing machine is a high-precision testing equipment that is widely used to test the mechanical properties of materials. This article will combine recent hot topics and hot content to introduce in detail the definition, principle, application and market data of this device.
1. Definition of computer servo tensile and compression testing machine
The computerized servo tensile and compression testing machine is a precision testing equipment driven by a servo motor and controlled by a computer. It is used to measure the mechanical properties of materials under tension, compression, bending, etc., such as tensile strength, yield strength, elastic modulus, etc. Its core features are high precision, high degree of automation, and real-time data analysis through software.
2. Working principle and structure
The device mainly consists of the following parts:
| components | Function |
|---|---|
| Servo motor | Provide precise power output |
| sensor | Real-time collection of force data |
| control system | Set test parameters through computer software |
| fixture | Fixed test sample |
3. Recent popular application areas
According to the hot spot data analysis of the entire network in the past 10 days, the demand for computerized servo tensile and compression testing machines has surged in the following fields:
| Industry | Application scenarios | Popular events |
|---|---|---|
| New energy vehicles | Battery material strength test | Controversy over the safety of a certain brand of battery |
| 3D printing | Verification of mechanical properties of new materials | Breakthrough in degradable 3D printing materials |
| medical device | Artificial bone compression test | Orthopedic Surgery Robotic Technology Update |
4. Market data and trends
According to industry statistics, the global testing machine market will grow significantly in 2023. The following are key data:
| indicator | numerical value | year-on-year growth |
|---|---|---|
| global market size | US$2.87 billion | 12.5% |
| Asia Pacific region’s share | 42% | 18.3% |
| Servo drive type proportion | 65% | 9.7% |
5. Technology Hotspots and Future Directions
Combined with recent scientific and technological hot spots, the technological development of testing machines shows the following trends:
1.Intelligent: AI algorithms are used for real-time data prediction and fault diagnosis.
2.Greening: Low energy consumption design has become the focus of competition for manufacturers.
3.miniaturization: Portable equipment meets on-site inspection needs.
6. Purchase suggestions
Users should pay attention to the following when choosing equipment:
1. Test accuracy (usually required to reach level 0.5 or higher);
2. Software compatibility (supports ISO, ASTM and other standards);
3. After-sales service (quick response technical support).
To sum up, as an important tool in modern industry, the computerized servo tensile and compression testing machine’s technology iteration and market demand are continuing to heat up with the advancement of materials science.
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