| Place of Origin: | China |
|---|---|
| Brand Name: | BAXIT |
| Certification: | CE,ISO |
| Model Number: | GLO-CT3 |
| Minimum Order Quantity: | 1 set |
| Price: | Negotiable |
| Packaging Details: | export wooden box |
| Delivery Time: | 5-8 work days |
| Payment Terms: | L/C, D/A, D/P, T/T, Western Union, MoneyGram |
| Supply Ability: | 500 sets per month |
| Test Accuracy: | ±3% | Test Repeatability Error: | ≤3% |
|---|---|---|---|
| Test Range: | 0.005—300W/(m*K) | Measurement Time: | 5~160 Seconds |
| Power Supply: | AC 220V | ||
| Highlight: | TPS Conductivity Analyzer,130C Thermal Conductivity Meter,AC 220V Conductivity Analyzer |
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operation video
The thermal conductivity tester developed using Transient Plane Heat Source Technology (TPS) for testing the thermal conductivity of a wide variety of materials. Transient planar heat source method is the latest in the study of thermal conductivity, which brings measurement technology to a whole new level. It can quickly and accurately measure the thermal conductivity when researching materials, which provides great convenience for enterprise quality monitoring, material production and laboratory research. The instrument is easy to operate, the method is simple and easy to understand, and will not cause damage to the sample to be tested.
Suitable for metal, ceramic, alloy, ore, polymer, composite, paper, fabric, foam (surface-level insulation, sheet), mineral wool, cement wall, glass reinforced composite board CRC, cement polystyrene board, sandwich Concrete, FRP panel composite panels, paper honeycomb panels, colloids, liquids, powders, granules and paste solids, etc., have a wide range of test objects.
Technical parameters:
| Test range | 0.005—300W/(m*K) |
| Measuring temperature range | room temperature - 130 ° C |
| Probe diameter | No. 1 probe 7.5mm; No. 2 probe 15mm |
| Accuracy | ±3% |
| Repeatability error | ≤3% |
| Measurement time | 5~160 seconds |
| Power supply | AC 220V |
| Machine power | <500w |
| Sample temperature rise | <15 ° C |
| Test sample power P | No. 1 probe power 0 < P < 1w; No. 2 probe power 0 < P < 14w |
| Sample specifications | Single sample (15*15*3.75mm) measured by the first probe; single sample (30*30*7.5mm) measured by the second probe. |
| Note: The No. 1 probe measures a thin material with a low thickness. The sample is superimposed if the surface of the sample is smooth and flat and sticky. | |
| methods | Transient plane heat source method | laser method | hot-wire technique | guarded plate method |
| not steady state method | not steady state method | not steady state method | steady state method | |
| measuring physical properties | Thermal conductivity and thermal diffusivity are obtained directly. | The thermal diffusivity and specific heat are obtained directly, and the thermal conductivity is calculated by the input sample density value. | Thermal conductivity is obtained directly | Thermal conductivity is obtained directly |
| application range | solid, liquid, powder, paste, colloid, particle | solid | Solid, liquid | solid |
| sample preparation | No special requirements, simple sample preparation. | Sample preparation is multifarious. | Sample preparation is simple and has specific requirements. | Larger sample size. |
| accuracy of measurement | ±3%,better±0.5% | better±10% | better±5% | better±3% |
| physical model | Planar heat source contact measurement, as long as the finite surface contact is good. | The heat source is contactless. | The linear heat source must be in good contact with the linear model. | Heat source contact type, need good surface contact. |
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Thermal conductivity range [w/(m*k)] |
0.005-300 | 10-500 | 0.005-10 | 0.005-5 |
| measuring time | 5-160S | few minutes | few minutes | few hours |