Welcome to the Qinsun Instruments Co., LTD! Set to the home page | Collect this site
The service hotline

Search


Related Articles

Product Photo

Contact Us

Qinsun Instruments Co., LTD!
Address:NO.258 Banting Road., Jiuting Town, Songjiang District, Shanghai
Tel:021-67801892
Phone:13671843966
E-mail:info@standard-groups.com
Web:http://www.qinsun-lab.com

Your location: Home > Related Articles > Specifications and models of Taber5135 and Taber5155 Abrasers معدات اختبار

Specifications and models of Taber5135 and Taber5155 Abrasers معدات اختبار

Author: Released in:2022-12-14 Click:27

Product Introduction

Recently, a customer had difficulty choosing Taber 5135 or 5155 when purchasing an abrasion tester. Here, Shanghai Qianshi specially introduces the specifications and models of Taber5135 and Taber5155 abrasion meters, hoping to be useful to everyone!

Principle of the Taber 5135/5155 abrasion test machine

To test the wear resistance of materials. Evaluate the abrasion resistance of its products through wear tests, such as measuring mass loss, thickness loss and light transmission.

Taber 5135/5155 application object

Products used for testing aircraft, such as: Suitcases, carpets, cardboard, clothing, glass, plastic coatings, tiles, metal coatings, paints, varnishes, decorative plates, high voltage plates, plastics, textiles, resilient floor mats, traffic paint, anodizing, blankets, electronic components, jewelrypanels, waxes, labels, leather cases, dental materials, car interiors, resins, furniture, etc.

Model for wear testing

Model: 5135, Single Bench Sander

Model: 5155, Double Bench Sander

Taber 5135/5155 technical parameters

- Two speeds: 60, 72 rpm

- Number of revolutions: 0 -50000

(quickly set to 100, 500, 1000 or 2500 rpm)

- 3 loads: 250g, 500g and 1000g

- Dual voltage switching: 115/230 V, 60/50 Hz

Meets the standard

ASTM D3884, ASTM D1175, ASTM D1044, ASTM D4060, TAPPI T476, ISO 9352, ISO 5470-1, JIS K7204 , JIS A1453, JIS K6902, JIS L1096, JIS K6964, DIN 52347, DIN 53109, DIN, 5375 Various standards such as DIN 53799

Wear testing machine Taber5135,5155 Properties :

Unique shur process

1. The material to be tested is placed on the turntable and two grinding wheels press with a certain weight on the material to make it wear.

2. When a sample with an area of ​​10x10 cm is subjected to abrasion, the surface material of the sample is abraded by full angle particles or silk fabrics to form a full ring .

3. The grinding wheel rotates with the rotating surface of the sample wheel, resulting in relative movement and wear, and the offset of the grinding wheel axis from the rotating axis of the turntable produces a slip movement during rotation, i.e. abrasive material.

Simulate real conditions of use or meet the test conditions specified in the standard

- A variety of different abrasive media and parts become different tested

- Repeated tests can be performed onthe same point of a material, the maximum thickness of about 0.5 of the material is broken or worn

- Two speeds can be set (60, 72 revolutions per minute) , 0-50000 revolutions (100, 500, 1000 or 2500 revolutions can be set quickly) and 3 types of loads.

Vacuum cleaner removes dirt

The suction arm of the vacuum pump is connected to the adjustable device on the back of the instrument by a hinge, The height can be adjusted according to different sample thickness

Ensure the stability and accuracy of the test

Strict control ensures for reliability Result

The selected grinding wheel abrasives are selected through strict quality control, with high quality and good stability

Sander The control panel has the following functions

1. Digital display test phase and menu selectionction:

Number dial key rotation - for Set the number of revolutions

Vacuum level - adjusts the suction power of the vacuum pump

Number of rubbed revolutions - shows the number of completed revolutions (counting starts automatically after pressing the start button)

Running the vacuum cleaner - for cleaning drive shaft and sample stage

2. The internal memory system can record the number of revolutions in the event of a sudden power failure.

Prev:

Next: