Overview
AISRY ASR-3009 Coefficient of Friction tester is a professional measurement equipment based on GB 10006 national standard, suitable for measurement Plastic film and sheet, rubber, paper, Cardboard, woven bags, fabric style, communication cable and cable with metal composite belt, conveyor belt, wood, coatings, brake pads, wipers, shoe materials, tires and other materials when sliding Coefficient of Friction and dynamic Coefficient of Friction. By measuring the slipperiness of materials, it can effectively control and adjust the mass production process indicators of materials to meet the requirements of product use. In addition, the instrument can also be used for measuring the slippery performance of daily chemical products such as cosmetics and eye drops.
Features
1. The equipment is controlled by a microcomputer, the test process is automated, and it is equipped with a menu-type operation interface, PVC control panel, and LCD screen, which is convenient for users to perform test operations and view data.
2. System accessories are familiar with the manufacturer's components, stable and reliable performance, equipped with High Accuracy Force Sensor, to achieve the highest test accuracy: 0.001N.
3. No mechanical knob, full digitalization system, support digital correction and zero adjustment.
4. Specially designed drive system for smooth operation and more accurate test results.
5. The system can simultaneously measure the Static Coefficient of Friction and the Dynamic Coefficient of Friction.
6. Equipped with a micro-printer to automatically print test reports for single or group samples.
7. The instrument test table and test slider have been degaussed and remanence detected, effectively reducing the system test error.
8. Support group data testing, embedded data statistical analysis function.
9. The instrument interface is simple in design, easier to operate, and easy to use.
Principle
The instrument calculates the static Coefficient of Friction and the dynamic Coefficient of Friction of the material by using the High Accuracy Force Sensor measurement of the resistance encountered by the slider as it slides on the specimen surface. Its specially designed drive system ensures that the slider moves smoothly at the set speed, and combines with a microcomputer control system to automate the test process and analyze data collection.
Applications
Plastic film, sheet, paper, Cardboard, Spinning & weaving products, non-woven fabrics, woven bags, rubber, aluminum foil, aluminum foil composite film, metal products, printing products, metal composite belts for communication cables and optical cables, conveyor belts, wood, coatings, brake pads, wipers, shoe materials, tires, cosmetics, eye drops and other daily chemical products
Standards
GB 10006、GB/T 17200、GB/T22895、ISO 8295、ASTM D1894、TAPPI T816
Steps
1. Prepare the sample and cut it as required.
2. Fix the specimen on the test table and the test slider respectively.
3. Set test parameters such as slider traverse speed through LCD and PVC control panel.
4. Start the test, the instrument automatically drives the slider to move and measures the friction force.
5. After the test is completed, the system automatically calculates and displays the Static Coefficient of Friction and the Dynamic Coefficient of Friction.
6. Test reports for single or group samples can be printed by a microprinter.
7. Utilize the built-in data statistical analysis function to process group test data.
Notice
* Power supply voltage is AC 220V +/- 10% 50Hz.
* The instrument should be placed in a standard test environment for use.
Before testing, make sure that the test bench and test slider are clean and free from impurities.
* Select the appropriate slider mass (standard configuration is 200g) and traverse speed (adjustable from 1-300mm/min) according to the test material standard.
* Please follow the menu interface prompts when operating to avoid misoperation.
Regular maintenance and calibrating to ensure test accuracy.
* Pay attention to Instrument Dimensions and Net weight to ensure smooth placement.
