Universal Testing Machine
Our goal is to become your true partner in the field of Universal Testing Machine in China. Guangzhou Shounuo Scientific Instrument Co., LTD. founded in 2011, is a high-tech enterprise integrating research and development, production, sales and service of flexible packaging testing instruments. We have a skilled engineering team dedicated to refining every stage, from product development and process improvement to production oversight, ensuring every product delivered meets rigorous quality and performance standards. The price is competitive and the product is quality-assured, which is a good choice for your long-term cooperation.
Why Choose Us
Product application
Our products include electronic tensile testing machine, water vapor transmission rate tester, OTR tester, gas transmission rate tester, etc. These products are widely used in drug testing, quality inspection, colleges and universities, pharmaceutical packaging and other fields.
Production market
We use high-quality products and services to open up the international market. For many years, we have continued to provide high-quality products to overseas customers in dozens of countries and regions such as Europe, the United States, and Southeast Asia, and have been widely recognized by domestic and foreign customers.
Our services
In the pre-sales stage, our team of experts will recommend the most suitable products according to the needs of customers and provide detailed technical consultation. During the sales period, we ensure timely delivery and provide installation guidance. For after-sales, we provide long-term technical support, warranty services and spare parts to help customers maximize the use of products and get reliable maintenance during use.
Advantages of Electronic Tensile Tester
Improved test accuracy
Consistent and accurate results reduce the risk of production defects.
Enhanced user safety
Equipped with safety features that minimize the risk of accidents during operation.
Cost-effectiveness
Allows for in-house testing, reducing the need for external laboratories, thus saving time and costs.
Ease of maintenance
Designed for straightforward calibration and upkeep, ensuring long-term reliability.
Electronic Tensile Tester Specification
|
Product Name |
Electronic Tensile Testing Machine |
|
Test range |
0-500N (Or other optional ) |
|
Elongation |
1250% |
|
Test speed |
0-500mm/min(variable speed adjustable) |
|
Displacement accuracy |
Within ±0.5% of the indicated value |
|
Sensor accuracy |
Level 0.5 |
|
Force resolution |
0.001N |
|
Stretching distance |
800mm |
|
Power source |
AC220V/50HZ |
|
Power |
1000W |
|
Dimension |
650mm*650mm*1300mm |
|
Net weight |
75KG |
Types of Electronic Tensile Tester
| Universal testing machines (Utms) | Versatile machines capable of performing tension, compression, and bending tests. |
| Micro and nano tensile testing machines | Designed for testing very small specimens with high precision, ideal for research applications. |
| Hydraulic tensile testing machines |
Feature hydraulic components for high-capacity testing, suitable for heavy materials. |
| Electric servo-controlled machines | Provide advanced control and high-speed testing capabilities, perfect for dynamic applications. |
The machine adopts a double-space floor-standing structure, the upper space is stretched, and the lower space is compressed and bent. The main part is composed of four columns, upper beam, middle beam and table. The speed control system is installed in the lower part of the workbench.
The deceleration system drives the ball screw to rotate, and the ball screw pair drives the middle beam to drive the stretching attachment (or compression and bending attachment) to move up and down to realize the loading and unloading of the sample. The structure has high rigidity, high efficiency, and stable transmission. The main components of the mainframe are processed in the machining center to ensure the accuracy of the mainframe.
Applications of Electronic Tensile Tester
Construction industry
The construction industry heavily relies on tensile testers to evaluate the strength and durability of materials such as steel, concrete, and composites.
Automotive industry
In the automotive sector, tensile testers are utilized to assess the mechanical properties of materials used in vehicle components.
Aerospace industry
The aerospace industry requires materials that can endure extreme conditions. Tensile testers are used to evaluate the strength and flexibility of materials like titanium and aluminum alloys, which are commonly used in aircraft manufacturing.
Manufacturing sector
Manufacturers across various sectors utilize tensile testers to maintain quality control of their products. This includes industries such as textiles, plastics, and metals.
Packaging industry
The packaging industry benefits significantly from tensile testing by evaluating the strength of packaging materials such as films, papers, and composites.
Textile industry
Tensile testing is fundamental in the textile industry to determine the strength and elasticity of fabrics. By evaluating tensile properties, manufacturers can ensure that textiles meet durability standards for clothing and other applications.
Electronics industry
In the electronics sector, tensile testers evaluate the mechanical properties of materials used in devices and components. This includes assessing the strength of wires, connectors, and circuit boards
Biomedical industry
The biomedical industry employs tensile testing to assess the mechanical properties of materials used in medical devices and implants. Biocompatibility and mechanical integrity are crucial for ensuring patient safety and device performance.
Research and development
Research institutions often utilize tensile testers for material science research. By conducting tensile tests, researchers can explore the fundamental properties of new materials and develop innovative solutions for various applications.
Production Process of Electronic Tensile Tester
Cutting
Raw materials are cut into specified dimensions using advanced machinery, ensuring that each piece fits perfectly in the assembly.
Machining
Machining processes, such as milling and turning, are employed to achieve precise tolerances required for critical components, including grips and fixtures.
Welding
For steel components, welding techniques are utilized to join parts, enhancing the tensile tester's structural integrity.
Surface treatment
After fabrication, surface treatments, such as anodizing or powder coating, are applied to protect against corrosion and wear.
Quality Control of Electronic Tensile Tester
| Visual inspection | A thorough visual inspection ensures that all components are free from defects and meet design specifications. |
| Functional testing | Functional tests are performed to assess the performance of the tensile tester, verifying that it operates correctly across its intended load range. |
Packing and Shipping of Electronic Tensile Tester
|
Packing |
Wooden box |
|
Shipping |
Shipped by road, sea, rail |