Thermal Flow Method Multifunctional Thermal Conductivity Tester
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- 产品描述
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- Commodity name: Thermal Flow Method Multifunctional Thermal Conductivity Tester
- Model: DRL-Ⅴ
The Xiangke DRL-V hot flow method multifunctional thermal conductivity tester mainly tests the thermal resistance of thin thermal conductors, solid electrical insulating materials, thermal grease, resins, rubbers, beryllium oxide ceramics, and aluminum oxide ceramics, as well as the contact thermal resistance at the solid interface and the thermal conductivity of the materials. With the addition of a high thermal conductivity detection device, it can also test the thermal conductivity of high thermal conductivity materials such as aluminum alloys and the contact thermal resistance between metals and between metals and thermal pads.
Xiangtan Xiangke DRL-V Thermal Flow Multifunctional Thermal Conductivity Tester Interface Thermal Resistance Tester
I. Overview
The thermal conductivity meter mainly tests the thermal resistance of thin thermal conductors, thermally conductive silicone sheets, thermally conductive resins, beryllium oxide ceramics, aluminum oxide ceramics and other small materials, as well as the contact thermal resistance at the solid interface and the thermal conductivity of the materials. The materials to be tested are generally solid sheet-like materials. With the addition of a frame, powder and paste materials can also be tested.
Instrument reference standards: MIL-I-49456A (insulating sheets, thermally conductive resins, thermally conductive glass fiber reinforced); GB 5598-2015 (Determination method of thermal conductivity of beryllium oxide ceramics, rod axis method); ASTM D5470-12 (Test standard for thermal performance of thin thermally conductive solid electrical insulating materials), GB/T38712-2020 (Experimental method for thermal conductivity of ultra-thin glass, thermal flow method), GB/T29313-2012 Test method for thermal conductivity of electrical insulating materials, etc.
The instrument has automatic pressurization, automatic thickness measurement, and fully automatic computer measurement and control functions.
The DRL-V instrument is developed on the basis of the DRL-III instrument and has the following characteristics:
-
A protective thermal device is added around the test rod in the test head (this device can provide thermal protection for the sample), which expands the test temperature range of the instrument and reduces the influence of ambient temperature on the test.
-
A thermocouple stack with temperature difference for heat flow measurement is added to the test rod in the test head, which improves the resolution, accuracy and repeatability of heat flow measurement.
-
The ice-water mixture for cold-end compensation of the thermocouple is cancelled, simplifying the operation and making it easier to use.
-
Added experimental methods such as "aging reliability test", "high thermal conductivity material test", and "sample-to-sample contact thermal resistance test".
DRL-3 and DRL-5 instruments can be widely used in colleges and universities, scientific research units, quality inspection departments and manufacturing plants for material thermal analysis and testing.
Xiangtan Xiangke DRL-V Thermal Flow Multifunctional Thermal Conductivity Tester Main Technical Parameters
Technical Parameters
Instrument Model: DRL-V
1. Temperature Range
1. 20-80℃ (Hot end: room temperature-100.00℃; Cold end: 0-80.00℃ (constant temperature bath))
2. 20-140℃ (Hot end: room temperature-200.00℃; Cold end: 0-80.00℃ (constant temperature bath))
3. 20-190℃ (Hot end: room temperature-300.00℃; Cold end: 0-80.00℃ (constant temperature bath))
4. 100-260℃ (Hot end: 120.00-300.00℃; Cold end: 80.00-240.00℃ (temperature control))
5. -20-80℃ (Hot end: room temperature-100.00℃; Cold end: -40.00-60.00℃ (constant temperature bath))
6. 40-260℃ (Hot end: room temperature-500.0℃; Cold end: 0-80.00℃ (constant temperature bath))
Note: The temperature range refers to the range of the average temperature of the test sample (hot surface and cold surface temperature). The hot surface temperature is slightly lower than the hot end temperature, and the cold surface temperature is slightly higher than the cold end temperature. Select one of the parameters.
2. Thermal Conductivity
1. Normal mode: 0.1~45 W/m*k
2. High conductivity mode: 5~500 W/m*k (with high conductivity test module)
3. Thermal Resistance Range
0.05~500 (cm2*k/w)
4. Test Accuracy
1. Thermal resistance test: 10~500cm2*k/w, error ≤3%; 0.05~10cm2*k/w, error ≤5%
2. Thermal conductivity test: 0.1~5 W/m*k, error ≤3%; 5~500 W/m*k, error ≤5%
3. Contact thermal resistance test: error ≤5%
4. Aluminum substrate (composite material) thermal resistance test: error ≤5%±0.1
5. Test Head Size
1. Φ30mm (sample size is based on this test head); 2. Φ50mm (optional)
6. Sample Size
1. 0.1~5 W/m*k or 10~500cm2*k/w, Φ30×(0.2~5)mm, thickness can be layered
2. 5~45 W/m*k or 2~10cm2*k/w, (Φ20~Φ30)×(0.2~15)mm
3. 5~500 W/m*k, (Φ10~Φ30)×(15~30)mm (high conductivity mode)
4. Aluminum substrate: 15×15 (mm)
Note: This sample size is the basic size. Refer to the following instructions for detailed sample preparation size.
7. Pressure Measurement
0~1000.0N
8. Displacement Measurement
0~40.00mm
9. Pressure Control
Electric
10. Experimental Methods
1. Thermal resistance test under different pressures of the sample,
2. Material thermal conductivity test,
3. Contact thermal resistance test under different pressures of the medium,
4. Thermal resistance test of aluminum substrate (composite material),
5. Aging reliability test,
6. Thermal conductivity test of high thermal conductivity materials (with high conductivity test module)
7. Contact thermal resistance test between samples under different pressures (with contact thermal resistance test module)
8. Material compression performance test (new function).
11. Host power supply
Voltage: 220V, 50HZ, power less than 1KW.
Instrument configuration: 1 DRL-V thermal conductivity tester; 1 set of test software (including communication interface); 1 set of constant temperature bath (constant temperature water bath or constant temperature oil bath configured according to the selected temperature specifications) and its controller; 1 desktop computer (can be provided by the user).
Thermal Flow Method Multifunctional Thermal Conductivity Tester
Model:
DRL-Ⅴ
Specifications:
Specifications:
这里是占位文字
Gross weight (KG):
The Xiangke DRL-V hot flow method multifunctional thermal conductivity tester mainly tests the thermal resistance of thin thermal conductors, solid electrical insulating materials, thermal grease, resins, rubbers, beryllium oxide ceramics, and aluminum oxide ceramics, as well as the contact thermal resistance at the solid interface and the thermal conductivity of the materials. With the addition of a high thermal conductivity detection device, it can also test the thermal conductivity of high thermal conductivity materials such as aluminum alloys and the contact thermal resistance between metals and between metals and thermal pads.
You can send us an email:xtyqyb@163.com
InquireProduct Details
Xiangtan Xiangke DRL-V Thermal Flow Multifunctional Thermal Conductivity Tester Interface Thermal Resistance Tester
I. Overview
The thermal conductivity meter mainly tests the thermal resistance of thin thermal conductors, thermally conductive silicone sheets, thermally conductive resins, beryllium oxide ceramics, aluminum oxide ceramics and other small materials, as well as the contact thermal resistance at the solid interface and the thermal conductivity of the materials. The materials to be tested are generally solid sheet-like materials. With the addition of a frame, powder and paste materials can also be tested.
Instrument reference standards: MIL-I-49456A (insulating sheets, thermally conductive resins, thermally conductive glass fiber reinforced); GB 5598-2015 (Determination method of thermal conductivity of beryllium oxide ceramics, rod axis method); ASTM D5470-12 (Test standard for thermal performance of thin thermally conductive solid electrical insulating materials), GB/T38712-2020 (Experimental method for thermal conductivity of ultra-thin glass, thermal flow method), GB/T29313-2012 Test method for thermal conductivity of electrical insulating materials, etc.
The instrument has automatic pressurization, automatic thickness measurement, and fully automatic computer measurement and control functions.
The DRL-V instrument is developed on the basis of the DRL-III instrument and has the following characteristics:
-
A protective thermal device is added around the test rod in the test head (this device can provide thermal protection for the sample), which expands the test temperature range of the instrument and reduces the influence of ambient temperature on the test.
-
A thermocouple stack with temperature difference for heat flow measurement is added to the test rod in the test head, which improves the resolution, accuracy and repeatability of heat flow measurement.
-
The ice-water mixture for cold-end compensation of the thermocouple is cancelled, simplifying the operation and making it easier to use.
-
Added experimental methods such as "aging reliability test", "high thermal conductivity material test", and "sample-to-sample contact thermal resistance test".
DRL-3 and DRL-5 instruments can be widely used in colleges and universities, scientific research units, quality inspection departments and manufacturing plants for material thermal analysis and testing.
Xiangtan Xiangke DRL-V Thermal Flow Multifunctional Thermal Conductivity Tester Main Technical Parameters
| Technical Parameters |
Instrument Model: DRL-V |
| 1. Temperature Range |
1. 20-80℃ (Hot end: room temperature-100.00℃; Cold end: 0-80.00℃ (constant temperature bath)) 2. 20-140℃ (Hot end: room temperature-200.00℃; Cold end: 0-80.00℃ (constant temperature bath)) 3. 20-190℃ (Hot end: room temperature-300.00℃; Cold end: 0-80.00℃ (constant temperature bath)) 4. 100-260℃ (Hot end: 120.00-300.00℃; Cold end: 80.00-240.00℃ (temperature control)) 5. -20-80℃ (Hot end: room temperature-100.00℃; Cold end: -40.00-60.00℃ (constant temperature bath)) 6. 40-260℃ (Hot end: room temperature-500.0℃; Cold end: 0-80.00℃ (constant temperature bath)) Note: The temperature range refers to the range of the average temperature of the test sample (hot surface and cold surface temperature). The hot surface temperature is slightly lower than the hot end temperature, and the cold surface temperature is slightly higher than the cold end temperature. Select one of the parameters. |
| 2. Thermal Conductivity |
1. Normal mode: 0.1~45 W/m*k 2. High conductivity mode: 5~500 W/m*k (with high conductivity test module) |
| 3. Thermal Resistance Range |
0.05~500 (cm2*k/w) |
| 4. Test Accuracy |
1. Thermal resistance test: 10~500cm2*k/w, error ≤3%; 0.05~10cm2*k/w, error ≤5% 2. Thermal conductivity test: 0.1~5 W/m*k, error ≤3%; 5~500 W/m*k, error ≤5% 3. Contact thermal resistance test: error ≤5% 4. Aluminum substrate (composite material) thermal resistance test: error ≤5%±0.1 |
| 5. Test Head Size |
1. Φ30mm (sample size is based on this test head); 2. Φ50mm (optional) |
| 6. Sample Size |
1. 0.1~5 W/m*k or 10~500cm2*k/w, Φ30×(0.2~5)mm, thickness can be layered 2. 5~45 W/m*k or 2~10cm2*k/w, (Φ20~Φ30)×(0.2~15)mm 3. 5~500 W/m*k, (Φ10~Φ30)×(15~30)mm (high conductivity mode) 4. Aluminum substrate: 15×15 (mm) Note: This sample size is the basic size. Refer to the following instructions for detailed sample preparation size. |
| 7. Pressure Measurement |
0~1000.0N |
| 8. Displacement Measurement |
0~40.00mm |
| 9. Pressure Control |
Electric |
| 10. Experimental Methods |
1. Thermal resistance test under different pressures of the sample, 2. Material thermal conductivity test, 3. Contact thermal resistance test under different pressures of the medium, 4. Thermal resistance test of aluminum substrate (composite material), 5. Aging reliability test, 6. Thermal conductivity test of high thermal conductivity materials (with high conductivity test module) 7. Contact thermal resistance test between samples under different pressures (with contact thermal resistance test module) 8. Material compression performance test (new function). |
| 11. Host power supply |
Voltage: 220V, 50HZ, power less than 1KW. |
Instrument configuration: 1 DRL-V thermal conductivity tester; 1 set of test software (including communication interface); 1 set of constant temperature bath (constant temperature water bath or constant temperature oil bath configured according to the selected temperature specifications) and its controller; 1 desktop computer (can be provided by the user).
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Relevant Specifications
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