The bare wire tensile testing machine specializes in testing the tensile strength of bare wires, with single arm and door type options for users to choose from. There are 2KN/5KN/10KN/20KN, and generally 5KN is sufficient.

Technical specifications of bare wire tensile testing machine:

Maximum test force: 50N, 500N, 5000N

Measurement range: 2% -100%;

Resolution in the experiment: 0.001N 0.01N 0.1N

Accuracy of test force: better than ± 1% or ± 0.5% of the indicated value

Testing machine level: Level 1 or Level 0.5

Displacement resolution: 0.01mm;

Displacement measurement accuracy: ± 0.5%;

Stretching stroke: 600mm (customizable)

Compression stroke: 600mm (customizable)

Test itinerary: 600mm (customizable)

Pressure plate diameter: 100mm (customizable)

Working conditions of bare wire tensile testing machine:

1. Power supply: AC220V 400W

2. Environmental temperature: 10 ℃~40 ℃

3. Relative humidity: ≤ 80%

4. The working environment should be clean, free of corrosive media, obvious seismic sources and electromagnetic interference, and have reliable grounding.

maintenance

1. The testing machine is installed in a clean and dry environment with uniform temperature, no vibration around, and no corrosive gas affecting the environment.

2. The testing machine should be kept clean, and parts without protective layers on the surface of the testing machine should be regularly wiped with oil to prevent rust and corrosion.

Advantages of naked wire tensile testing machine:

1. Experimental software: Chinese WINDOWS interface, menu prompts, mouse operation

2. The machine adopts AC servo motors and servo speed control system motors with high speed regulation accuracy and stable performance as the driving system, and has protection devices such as overcurrent, overvoltage, and overload.

3. The transmission part adopts a circular arc synchronous toothed belt and a precision screw pair for smooth transmission, low noise, and high transmission efficiency. 4. Process implementation: The experimental process, measurement, display, and analysis are all displayed by the computer;

5. Display method: Data and curves are dynamically displayed during the experimental process.