Feature | Meso 100A | Micro 100B | Micro 100C |
Adsorbed Gas | Non corrosive gases, such as N2, Ar, Kr, H2, O2, CO2, CO, NH3, CH4, etc. | ||
Pressure Sensor at Analysis Station | 1000 torr | 1000 torr,10 torr | 1000 torr, 10 torr, 1 torr (optional 0.1 torr) |
Accuracy: ±0.15% (F.S.) | |||
Pressure Sensor at P0 Station | 1000 torr (Accuracy: ±0.15% (F.S.) | ||
Degas System | 2 ectopic vacuum heating degas station; Samples on analysis bits can be degassed simutaneously. | ||
Degas Temperature | Ambient to 400 ℃. Free to set up target temperature. | ||
Cold Trap | 1 | ||
Vacuum Pump | Two-stage rotary vane mechanical vacuum pump, the trtimate vacuum is 6.7*10-2 Pa | Turbo molecular pump (trtimate vacuum 10-8 Pa) and front mechanical vacuum pump | |
Analysis Port | Samples on the 2 analysis bits can be tested alternately (including P0 test). | ||
Test Principle | Gas adsorption by static-volumetric analysis | ||
Measurement Range of Specific Surface Area | 0.0005 m2/g to the infinity; Standard sample repetition is less than ± 1.0% | ||
Test Range of Pore | 0.35 nm-500 nm; | 0.35 nm-500 nm; | 0.35 nm-500 nm; |
Diameter | repeatability of pore size is less than 0.2 nm in the accurate analysis of porous materials which size is more than 2 nm | repeatability of pore size is less than 0.2 nm in the accurate analysis 0.7 nm-2 nm micropore. | repeatability of pore size is less than 0.2 nm in the accurate analysis 0.35 nm-2 nm micropore. |
Range of Relative Pressure P/P0 | 10-5-0.998 | 10-6-0.998 | 10-8-0.998 |
Minimum Pore Volume | 0.0001 cm3/g | ||
Overall Dimension | Depth: 870 mm; width: 570 mm; height: 890 mm; weight: 80 Kg -90 Kg | ||
Ambient Temperature | 15-40 oC | ||
Related Humidity | 30%-60% | ||
Electrical Supply | AC220 V ± 20 V, 50/60 HZ, maximum power 300W; |
Applied Field | Typical Materials | Details |
Material Research | ceramic powder, metal powder, nanotube | According to surface area value of nanotube, hydrogen storage capacity can be predicted. |
Chemical Engineering | carbon black, amorphous silica, zinc oxide, titanium dioxide | Introduction of carbon black in rubber matrix can improve mechanical properties of rubber products. Surface area of carbon black is one of the important factors affecting the reinforcement performance of rubber products. |
New Energy | lithium cobalt, lithium manganate | Increasing surface area of electrode can improve Electrochemical reaction rate and promote iron exchange in negative electrode. |
Catalytic Technologies | active alumina oxide, molecular sieve, zeolite | Active surface area and pore structure influence reaction rate. |