10KN microcomputer controlled electronic tensile testing machine

10KN microcomputer controlled electronic tensile testing machineAccurate and efficient material mechanics performance testing platform

In the fields of product quality control, new material research and development, as well as teaching and scientific research, precise mechanical performance testing of materials such as metal wire, plastic, rubber, film, textiles, etc., including tensile, compressive, and bending tests, is a fundamental and critical step. The 10kN microcomputer controlled electronic tensile testing machine, as a universal desktop testing equipment, integrates high-precision measurement, intelligent control, and multifunctional applications, providing reliable and efficient standardized testing solutions for various laboratories.

Product Overview

10KN microcomputer controlled electronic tensile testing machineIt is a high-precision material testing equipment that adopts electronic servo drive technology. Its core consists of high-performance AC servo motors, precision ball screw pairs, and fully digital closed-loop control systems, which can achieve precise displacement and speed control, thereby applying smooth and impact free tensile or compressive loads to the specimen.

The device adopts force sensors and high-resolution displacement measurement systems, and data acquisition and processing are carried out through a fully digital computer controller. Its compact structure and easy operation make it widely used for mechanical property testing in metal materials (such as steel wire, aluminum wire), polymer materials (plastics, rubber), composite materials, paper, packaging materials and other fields. It meets the requirements of multiple national and international standards such as GB/T, ISO, ASTM, JIS for tensile, compressive, bending, shear, peel and other testing methods. It is an ideal choice for factory quality inspection departments, research institutes, colleges and universities, and third-party testing institutions.

Core functional features

High precision and wide range measurement: Using a highly stable strain gauge force sensor, the experimental force measurement accuracy is high and the resolution is fine. The device has a wide effective measurement range (usually 2% -100% of the maximum force), supporting accurate measurement of small and large force values. Combined with high-precision photoelectric encoders or external extensometers, accurate displacement and deformation data of materials can be obtained.

Intelligent microcomputer control:

Fully automatic control: Through computer software, it is easy to set test parameters (such as speed, step size), control modes (displacement control, speed control), and test processes, achieving one click fully automatic testing.

Multi functional testing: The software has a rich library of test method standards built-in, supporting various test types such as tension, compression, bending, shear, peeling, tearing, etc. Users can also customize the test plan, with strong flexibility.

Powerful data processing and report generation:

Real time curves: During the testing process, the software interface dynamically displays various curves such as "force displacement", "force time", and "stress-strain" in real-time, making the process intuitive and clear.

Automatic calculation: After the experiment is completed, the system automatically calculates and displays dozens of mechanical performance parameters such as the maximum test force, tensile strength, yield strength, elastic modulus, and elongation at break of the sample.

Professional report: Users can generate standardized and complete test reports with one click. The report template supports customization and can be exported to Word, Excel, or PDF formats for easy data management and sharing.

Safe and reliable, easy to operate:

Equipped with safety functions such as overload protection and limit protection. Adopting modular design, fixture replacement is fast and convenient, and can adapt to a variety of fixtures and attachments to meet the testing needs of different shapes and materials.

Humanized software interface design, clear operation process, even new users can quickly get started.

Main technical parameters

The following are typical technical specifications of a 10kN microcomputer controlled electronic tensile testing machine, and the specific configuration can be adjusted according to user needs.

Parameter project specifications and indicator descriptions

Maximum test force 10 kN

Test force measurement accuracy ≤± 0.5% indication (higher accuracy is optional)

Test force resolution 1/500000 FS

Displacement measurement accuracy resolution better than 0.001mm

Speed control range 0.001~500 mm/min (stepless speed regulation)

The effective test span is about 400 mm (can be customized according to requirements)

The effective stretching stroke is about 700 mm (can be customized according to needs)

Control mode: fully automatic computer control, supporting two control modes: displacement and velocity

Host power supply AC 220V ± 10%, 50Hz

Specialized measurement and control software for software systems, supporting standard testing methods and equipped with data management functions.

Application scenarios and selection suggestions

Typical applications:

Metal products industry: tensile strength testing of steel wire ropes, metal wires, small components, etc.

Plastic and rubber industry: testing of tensile, tear, and peel properties of films, pipes, profiles, and rubber products.

Textile and light industry: mechanical performance evaluation of fabrics, ropes, zippers, and leather.

Packaging materials industry: tensile and peel strength testing of tape, strapping, and paper.

Research and Teaching: Research on the Mechanical Properties of Materials and Experimental Teaching Demonstration.

Key considerations for selection:

1. Range matching: The 10kN range is suitable for testing most non-metallic materials and small metal parts. Users should leave sufficient margin (recommended between 20% -80% of the range) to choose based on the maximum expected force value of the tested material.

2. Fixture configuration: This is the key to ensuring successful testing. Corresponding flat push fixtures, winding fixtures, compression fixtures, or three-point bending devices need to be selected according to the shape of the sample (such as dumbbell shaped, strip shaped, pipe shaped) and the type of test (tension, bending, compression).

3. Accuracy requirements: For quality control or scientific research purposes, high accuracy (such as ± 0.5%) is necessary to ensure. It is necessary to confirm whether the equipment accuracy level meets the requirements of relevant standards or internal quality control systems.

4. Software Scalability: Confirm whether the software supports the testing standards you may need currently and in the future, and whether it is convenient for data traceability and secondary analysis.

We can provide you with a complete configuration plan and professional technical support for a 10kN microcomputer controlled electronic tensile testing machine. We welcome you to provide specific testing materials and standards so that we can recommend the most suitable equipment and accessory combination for you.