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| Brand | ScienceEdge |
|---|---|
| Origin | Japan |
| Model | InFocus κ FDTR |
| Dimensions (W×D×H) | 505 × 560 × 480 mm |
| Pump Laser | 445 nm, ~2 μm spot (@20×, NA=0.45) |
| Probe Laser | 514 nm, ~1 μm spot (@20×, NA=0.45) |
| Transducer | Au |
| Modulation Frequency Range | 10 kHz – 50 MHz |
| Sample Types | Thin films, microstructures, particles (e.g., 18 μm single-crystal Al₂O₃), bulk materials |
| Weight | 70 kg |
| Brand | Panco |
|---|---|
| Origin | Germany |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported Instrument |
| Model | TEGeta |
| Measurement Principle | Steady-State Heat Flow Method (Thermal Gradient + Simultaneous Electrical & Thermal Response) |
| Typical Sample Area | 50 mm × 50 mm |
| Customizable Sample Area | up to 80 mm × 80 mm |
| Temperature Range | Up to 900 °C |
| Voltage Range | 0–60 V (±1% accuracy) |
| Current Range | 0–30 A (±2% accuracy) |
| Heating Power | Up to 800 W (±10% tolerance) |
| Measured Parameters | Thermal Flux, Average Seebeck Coefficient (µV/K), Average Thermal Conductivity (W/m·K), Average Electrical Resistivity (µΩ·m), Maximum Output Power (mW/cm²), Conversion Efficiency (%) |
| Repeatability | High |
| Accuracy Class | High-Precision Laboratory Grade |
| Compliance Context | Designed for ASTM E1530, ISO 22007-2, and GB/T 33792–2017 compliant workflows |
| Brand | ADVANCE RIKO |
|---|---|
| Origin | Japan |
| Model | F-CAL |
| Measurement Principle | Heat Flow Method |
| Thermal Resistance Range | 1×10⁻⁵ m²·K/W |
| Repeatability | <2% fluctuation |
| Test Atmosphere | Ambient air |
| Hot-Side Temperature Setting | 50°C |
| Sample Geometry | Square, 25 mm or 40 mm edge length, thickness 1–5 mm |
| Instrument Type | Steady-State Thermal Resistance Analyzer |
| Brand | ADVANCE RIKO |
|---|---|
| Origin | Japan |
| Model | TCN-2ω |
| Measurement Principle | 2ω Lock-in Thermography (Frequency-Domain Modulated Joule Heating) |
| Test Temperature | Ambient (23 ± 2 °C) |
| Sample Dimensions | 10–20 mm (L) × 10 mm (W) × 0.3–1 mm (total thickness, including substrate) |
| Substrate Materials | Si (recommended), Ge, Al₂O₃ |
| Metal Transducer Film | Au (100 nm, 1.7 mm × 15 mm) |
| Thermal Conductivity Range | 0.1–10 W·m⁻¹·K⁻¹ |
| Atmosphere | Ambient air |
| Compliance | ISO/IEC 17025-aligned methodology, compatible with GLP documentation workflows |
| Brand | Advance Riko |
|---|---|
| Origin | Japan |
| Model | TC-1200RH |
| Measurement Principle | Laser Flash Method (LFM) |
| Temperature Range | RT to 1150 °C (up to 1200 °C short-term) |
| Thermal Conductivity Range | 0.1–2000 W/m·K |
| Accuracy | ±5% |
| Repeatability | ±3% |
| Sample Dimensions | Ø10 mm × 1–3 mm (thickness), measured through-thickness |
| Atmosphere | Vacuum (standard) |
| Heating Rate | 10 °C/min (to 100 °C), 20 °C/min (to 300 °C), 50 °C/min (to 1150 °C) |
| Dimensions (W×D×H) | 900 × 1050 × 1700 mm |
| Weight | ~350 kg |
| Power Supply | AC200 V, single-phase, 8 kVA (main unit) |
| Cooling Water | ≥5 L/min, pressure ≥0.15 MPa |
| Compliance | JIS R 1611, JIS R 1650-3, JIS H 7801, ISO 13826, ASTM E1461 |
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