KS-B Digital Plasticity Tester, Microcomputer Plasticity Tester
KS-B型 Product model: KS-B type
2019/4/24 0:00:00 Product time: 2019/4/24 0:00:00
KS-B型数显可塑性测定仪是用于测量陶瓷泥料可塑性的一种新型仪器。 Brief description: KS-B Digital Plasticity Tester is a new type of instrument used to measure the plasticity of ceramic mud. It is suitable for the national light industry standard QB / T1322-2010 (measurement method of plasticity index of ceramic mud).
KS-B Digital Plasticity Tester (Won the Excellent New Product Award of the Ministry of Light Industry)
I. Overview: 具有两种测量方法： The digital display plasticity measuring instrument has two measuring methods: 1. Plasticity index method: That is to determine the plasticity of the mud by studying the relationship between the stress and strain of the sample during the stress process. Compared with other methods, it is more scientific and more advanced, and the influence of human factors is minimal.It is suitable for cylindrical specimens and defines the plasticity R to measure the plasticity of the mud. 2. Plasticity index method: measure the resistance of mud to shape changes.Suitable for spherical specimens. 可广泛应用于陶瓷、电瓷、建材、磨料等行业。 KS-B type digital plasticity tester can be widely used in ceramics, electric porcelain, building materials, abrasives and other industries.
2. Main specifications and technical parameters: 1. Sample size: Ф28 × 38 cylindrical, Ф≤45 spherical sample 2. Pressure range: 0 ～ 200N; pressure accuracy ≤1% (FS) 3. Displacement range: 0 ～ 25㎜; displacement accuracy≤1% (FS) 4. Platen speed: 30㎜ / min 5. Microcomputer control and data processing in the whole process 6. Power supply: 220V ± 5%; 50HZ ± 5% 7. Working environment: temperature 5 ℃ ～ 40 ℃; humidity≤85 ％
主要结构及工作原理： 3. The main structure and working principle of the digital display plasticity measuring instrument : 1. Overall structure: The instrument is composed of two parts: machinery and electrical appliances. The mechanical part is mainly a deceleration device.The electrical part includes: microcomputer tester, pressure sensor, displacement sensor, etc. 2. Working principle: The motor rotates and drives the sample support base up and down through the deceleration device. When the sample contacts the pressure sensor fixed on it, a pressure signal is generated. When the support base moves up and down, the iron core moves when the displacement sensor is driven, and a displacement signal is generated. The signal is measured by a microcomputer measuring instrument, displayed and data processed, and the data we need can be obtained!