Thermal Conductivity Analyzer

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ADVANCE RIKO F-CAL Low-Thermal-Resistance Substrate Thermal Conductivity Evaluation System

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

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Advance Riko TC-1200RH Laser Flash Apparatus for Thermal Diffusivity, Specific Heat, and Thermal Conductivity Measurement

2026-03-11 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

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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Aerospace TCA-3030 Dual-Sided Guarded Hot Plate Thermal Conductivity Analyzer

2025-12-31 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Aerospace
Origin	Beijing, China
Model	TCA-3030
Measurement Principle	Guarded Hot Plate Method (ASTM C177 / ISO 8302 / GB/T 10294-2008)
Thermal Conductivity Range	0.01–1 W/(m·K)
Accuracy	≤1%
Repeatability	≤1%
Temperature Range (Cold Plate)	5–90 °C
Max. Hot Plate Temperature	120 °C
Sample Dimensions	300 mm × 300 mm, Thickness ≤37.5 mm
Sample Form	Solid, Homogeneous Flat Panels
Test Environment	Ambient (Controlled Room: 8–35 °C, RH <80%)
Power Supply	3 kW, 220 V AC
Overall Dimensions (L×W×H)	1120 × 830 × 1600 mm
Automation	Microprocessor-Controlled with Real-Time Data Acquisition & Reporting
Compliance	Fully aligned with GB/T 10294-2008, ASTM C177, ISO 8302, and EN 12664 for steady-state thermal resistance measurement

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Aiyao TCT Thin-Film Thermal Conductivity Measurement System

2026-03-05 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Aiyao Instruments
Model	TCT
Measurement Principle	3ω Method
Sample Form	Micro/Nano Thin Films (Supported & Freestanding)
Temperature Range	Ambient to 400 °C (Optional Cryogenic Extension Available)
Thermal Conductivity Range	0.1–1000 W/(m·K)
Resolution	<0.5% of Full Scale
Data Acquisition	High-Precision Digital Source Meter + Dual-Phase Lock-in Amplifier
Compliance	ASTM E1461, ISO 22007-2 (Adapted), GLP-Compatible Audit Trail Logging

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Analysis Tech PHASE12 Transient Thermal Resistance Analyzer

2026-03-13 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Analysis Tech
Origin	USA
Model	PHASE12
Compliance	JEDEC JESD51-1, JESD51-14, JESD51-8, JESD51-12
Thermal Resolution	±0.007°C
Junction Temperature Accuracy	±0.1°C
Voltage Measurement Accuracy	±0.25% (0–30 V)
Current Measurement Accuracy	±0.25%
Sampling Rate	1 MHz
Max Standard Current Output	18 A
Optional High-Current Power Booster	up to 1000 A
Junction Sensing Current Options	1–50 mA
Calibration Temperature Range	Ambient to 180°C
Input Power	220 VAC, 5 A, 50/60 Hz

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Analysis Tech TIM1300/1400 Thermal Interface Material Tester

2026-03-11 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Analysis Tech
Origin	USA
Model	TIM1300 / TIM1400
Test Method	ASTM D5470
Sample Diameter	1.3 in (33 mm)
Thickness Range	0–20 mm
Temperature Range	20–65°C (TIM1300), 20–130°C (TIM1400)
Contact Pressure Range	5–380 psi (34–2600 kPa)
Thickness Measurement Accuracy	±1% + 0.001 in (±25 µm)
Thermal Resistance Range	0.005–8 K/W
Power Supply	100–230 VAC, 50/60 Hz
Cooling Requirement	6 L/min @ 10–35°C, ±0.1°C stability
Compressed Air	≥90 psi (600 kPa), 10 µm filtration
Dimensions (H×W×D)	58×41×43 cm
Weight	19 kg (TIM1300), 21 kg (TIM1400)

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ANALYSIS TECH TIMTester 1300 & 1400 Thermal Interface Material Tester

2026-03-12 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	ANALYSIS TECH
Origin	USA
Manufacturer Type	Authorized Distributor
Origin Category	Imported
Model Series	TIMTester 1300, TIMTester 1400
Pricing	Upon Request

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HESON HS-DR-5 Multi-Function Transient Plane Source (TPS) Thermal Conductivity Analyzer

2025-12-10 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	HESON
Origin	Shanghai, China
Manufacturer Type	Direct Manufacturer
Instrument Type	Transient Plane Source (TPS) Method
Sample Capacity	Single sample per test
Test Environment	Ambient temperature (20–30 °C)
Dimensions (L×W×H)	450 × 385 × 165 mm
Accuracy	±3%
Thermal Conductivity Range	0.005–300 W/(m·K)
Repeatability	≤3%
Test Atmosphere	Ambient air (no purge required)
Sample Forms	Solids, powders, liquids, pastes, granules, gels, coatings, thin films, and insulating materials

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HESON HS-DR-5 Transient Plane Source (TPS) Thermal Conductivity Analyzer

2026-02-06 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	HESON
Origin	Shanghai, China
Manufacturer Type	Direct Manufacturer
Instrument Type	Transient Plane Source Method
Sample Capacity	Single sample per test
Test Environment	Ambient temperature (20–30 °C)
Dimensions (L×W×H)	450 × 385 × 165 mm
Accuracy	≤3%
Thermal Conductivity Range	0.005–300 W/(m·K)
Repeatability	≤3%
Probe Options	7.5 mm and 15 mm diameter dual-spiral probes
Measurement Time	5–160 s (user-configurable)
Max. Sample Temperature Rise	<15 °C
Power Supply	220 V AC, <500 W
Compatible Sample Forms	Solid blocks, powders, pastes, gels, liquids, coatings, films, foams, and insulating materials

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MATHIS TC-30 Thermal Conductivity Analyzer

2026-03-21 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	MATHIS
Origin	Canada
Model	TC-30
Measurement Principle	Transient Plane Source (TPS) or Modified Transient Hot Wire (THW)
Sample Measurement Time	1–60 s
Inter-Test Interval	0–10 min (typ. 2 min)
Operating Temperature Range	–20 °C to +60 °C (external sensor)
Compliance	Designed for GLP/QC environments

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Nanjing Dazhan DZDR-S Transient Plane Source (TPS) Thermal Conductivity Analyzer

2026-02-24 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Nanjing Dazhan
Origin	Jiangsu, China
Manufacturer Type	Direct Manufacturer
Instrument Type	Transient Plane Source Method
Thermal Conductivity Range	0.0001–300 W/(m·K)
Accuracy	±3%
Repeatability	≤3%
Measurement Time	5–160 s
Sample Forms	Solid blocks, pastes, granules, gels, liquids, powders, coatings, thin films
Probe Diameters	7.5 mm, 15 mm, 50 mm (optional)
Sample Dimensions (min.)	15×15×3.75 mm (for 7.5 mm probe), 30×30×7.5 mm (for 15 mm probe), 50×50×7.5 mm (for 50 mm probe)
Operating Temperature	Ambient to 130 °C
Power Supply	AC 220 V, <500 W
Dimensions (L×W×H)	440×390×220 mm
Compliance	Designed for ISO 22007-2, ASTM D5470, and GB/T 32064–2015 conformance
Software	Embedded ARM-based control system with real-time data acquisition, GLP-compliant audit trail, and exportable CSV/Excel reports

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Netzsch GHP456 Titan Guarded Hot Plate Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	GHP456 Titan
Measurement Principle	Guarded Hot Plate Method
Applicable Standards	ISO 8302, DIN EN 12667, DIN EN 12939, DIN EN 13163, ASTM C177, GB 10294
Temperature Range	−160 °C to 600 °C
Sample Dimensions	300 mm × 300 mm (max thickness 100 mm)
Thermal Conductivity Range	0–2 W/(m·K)
Accuracy	±2%
Repeatability	±1%
Vacuum Capability	Yes
Control Sensors	29 Pt-100 resistance thermometers
Footprint (L×W×H)	3000 mm × 1500 mm × 2000 mm
Operating Environment	Ambient temperature laboratory conditions
Sample Throughput	Multi-sample sequential testing supported

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NETZSCH HFM 446 L Lambda Heat Flow Meter Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	NETZSCH
Origin	Germany
Model	HFM 446 L Lambda
Measurement Principle	Heat Flow Method (ASTM C518, ISO 8301, DIN EN 12667)
Cold/Hot Plate Temperature Range	–20 °C to +90 °C
Temperature Setpoints	Up to 10 independent points
Sample Dimensions (L×W×H)	600 mm × 600 mm × 200 mm (max)
Thermal Conductivity Range	0.002 – 2.0 W/(m·K)
Thermal Resistance Range	0.05 – 8.0 m²·K/W
Accuracy	±1% (relative to NIST-traceable reference materials)
Repeatability	≤0.5% (RSD, under controlled ambient and sample conditioning)
Applied Sample Pressure Range	0 – 5 kPa (motorized, programmable load control)
Thickness Resolution	<1 µm (integrated high-precision micrometer displacement sensor)
Integrated Peltier Cooling System	Yes
Optional Modules	Specific Heat Capacity (Cp) measurement via dual-plate calorimetry mode
Overall Dimensions (L×W×H)	1000 mm × 1000 mm × 1500 mm
Compliance	Fully compatible with GLP/GMP data integrity requirements

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NETZSCH HFM 446 M Lambda Heat Flow Meter Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	NETZSCH
Origin	Germany
Instrument Type	Heat Flow Meter (HFM)
Model	HFM 446 M Lambda
Dimensions (L×W×H)	500 mm × 500 mm × 500 mm (sample chamber footprint)
Temperature Range (Hot/Cold Plate)	–20 °C to +90 °C
Temperature Points	Up to 10 programmable setpoints
Sample Size	Up to 300 mm × 300 mm × 100 mm (L×W×H)
Thermal Resistance Range	0.05 to 8.0 m²·K/W
Thermal Conductivity Range	0.002 to 2.0 W/(m·K)
Accuracy	±1%
Repeatability	0.5%
Maximum Sample Load Pressure	21 kPa
Compliance	ASTM C518, ISO 8301, DIN EN 12667, GB/T 10294

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Netzsch HFM 446 S Lambda Heat Flow Meter Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Instrument Type	Heat Flow Method
Dimensions (L×W×H)	490 mm × 300 mm × 390 mm
Accuracy	±1%
Thermal Conductivity Range	0.002 – 2.0 W/(m·K)
Repeatability	0.5%
Cold/Hot Plate Temperature Range	−20 °C to +90 °C
Temperature Setpoints	10
Sample Size Max	200 mm × 200 mm × 50 mm
Thermal Resistance Range	0.05 – 8.0 m²·K/W
Maximum Sample Load	21 kPa
Optional Features	SMART MODE, Specific Heat Measurement Module, High-Conductivity Extension Kit

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Netzsch LFA 427 Laser Flash Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	LFA 427
Measurement Principle	Laser Flash Method (LFM)
Temperature Range	–120 °C to 2800 °C (depending on furnace configuration)
Laser Source	Nd:Glass, energy-adjustable pulse
Thermal Conductivity Range	0.1–2000 W/(m·K)
Accuracy	±3%
Repeatability	±2%
Vacuum Level	≤10⁻⁵ mbar
Sample Dimensions	Square: 8×8 mm, 10×10 mm
Circular	Ø6, Ø10, Ø12.7, Ø20 mm
Thickness	0.1–6 mm
Sample Types	Solids, powders, thin films, liquids (with specialized holders)
Furnace Options	Dual-furnace capability
Pulse Control	Software-adjustable pulse width
Key Technology	PulseMapping™
Atmosphere Control	Vacuum, inert (Ar, N₂), or reactive gases (e.g., O₂, CO₂)
Sample Holders	Graphite, alumina, silicon carbide
Dimensions (L×W×H)	800 mm × 800 mm × 1900 mm

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Netzsch LFA 467 HyperFlash HT Laser Flash Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	LFA 467 HyperFlash HT
Measurement Principle	Laser Flash Method (LFA)
Temperature Range	RT to 1250 °C
Thermal Conductivity Range	0.1 – 4000 W/(m·K)
Accuracy	±3%
Repeatability	±2%
Pulse Source	Adjustable-energy xenon lamp, pulse width <2 µs
Detection Rate	up to 2 MHz
Sample Forms	Solid, liquid, powder, thin film
Atmosphere Options	Inert or oxidative (vacuum-tight chamber)
Dimensions (L×W×H)	600 mm × 500 mm × 600 mm
Sample Capacity	Up to 4 positions with independent thermocouples
Compliance	ASTM E1461, ASTM E2585, ISO 22007-4, ISO 18755, ISO 13826, DIN EN 821-2, DIN 30905, DIN EN 1159-2

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Netzsch LFA 717 HyperFlash Laser Flash Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	LFA 717 HyperFlash
Measurement Principle	Laser Flash Method (LFA)
Temperature Range	-100 °C to 500 °C
Thermal Conductivity Range	0.1 – 4000 W/(m·K)
Accuracy	±3%
Repeatability	±2%
Sample Forms	Solid, Liquid, Powder, Thin Film
Atmosphere Options	Inert or Oxidizing
Sample Capacity	Up to 16 positions with automated carousel
Dimensions (L×W×H)	600 mm × 500 mm × 600 mm
Data Acquisition Rate	2 MHz
Compliance Standards	ASTM E1461, ASTM E2585, ISO 22007-4, ISO 18755, ISO 13826, DIN EN 821-2, DIN 30905, DIN EN 1159-2

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NETZSCH NanoTR Thermal Reflectance Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	NETZSCH
Origin	Germany
Model	NanoTR
Measurement Principle	Laser-based Thermal Reflectance (Time-Domain Thermoreflectance, TDTR)
Instrument Type	Thin-Film Thermal Conductivity Analyzer
Temperature Range	Ambient (RT) to 300 °C (optional heating stage)
Sample Dimensions	10 × 10 mm to 20 × 20 mm
Film Thickness Range	30 nm to 20 µm (dependent on material and measurement mode)
Thermal Diffusivity Range	0.01 to 1000 mm²/s
Thermal Conductivity Range	0.1 to 2000 W/(m·K)
Accuracy	±5%
Repeatability	±5%
Pulse Width	1 ns
Probe Beam Diameter	100 µm
Pump Laser Power	100 mW
Measurement Modes	RF (Rear-Heating/Forward-Detection) and FF (Front-Heating/Forward-Detection)
Footprint (L×W×H)	600 mm × 500 mm × 700 mm
Compliance	ISO 13826, ASTM E1461 (adapted for thin-film extension), NIST-traceable calibration protocols

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Netzsch PicoTR Thin-Film Thermal Conductivity Analyzer (Thermal Reflectance Method)

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	PicoTR
Measurement Principle	Time-Domain Thermoreflectance (TDTR)
Instrument Type	Thin-film thermal property analyzer
Dimensions (L×W×H)	600 mm × 500 mm × 700 mm
Accuracy	±5%
Thermal Conductivity Range	0.1 – 2000 W/(m·K)
Repeatability	±5%
Temperature Range	Ambient (RT) to 500 °C (optional stage)
Measurement Modes	RF (rear-heating/front-detection) and FF (front-heating/front-detection)
Sample Size	10 mm × 10 mm to 20 mm × 20 mm
Film Thickness Range	10 nm – 900 nm (material- and mode-dependent)
Thermal Diffusivity Range	0.01 – 1000 mm²/s
Pump Laser Pulse Width	0.5 ps
Probe Beam Diameter	45 µm
Laser Power	20 mW

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Netzsch TAURUS GHP 500 Guarded Hot Plate Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TAURUS GHP 500
Measurement Principle	Guarded Hot Plate (GHP)
Standard Compliance	ISO 8302, ASTM C177, EN 12664, EN 12667, EN 12939, EN 1946-2
Thermal Conductivity Range	0.005 – 2.0 W/(m·K)
Accuracy	±1.0%
Repeatability	±0.5%
Sample Thickness (Single-Sided)	15 – 200 mm
Sample Thickness (Double-Sided)	2 × 15 – 100 mm
Sample Area	100 × 100 – 300 × 300 mm (optional 500 × 500 mm)
Hot Plate Temperature Range	−5 to 70 °C
Cold Plate Temperature Range	−15 to 60 °C
Enclosure Dimensions (H × W × D)	186 × 75 × 75 cm

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Netzsch TAURUS GHP 600 Guarded Hot Plate Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TAURUS GHP 600
Measurement Principle	Guarded Hot Plate Method
Sample Capacity	Multiple sequential tests
Operating Environment	Ambient temperature
Dimensions (H×W×D)	186 × 85 × 85 cm
Accuracy	±1.0%
Thermal Conductivity Range	0.005 – 2.0 W/(m·K)
Repeatability	±0.5%
Compliant Standards	ISO 8302, ASTM C177, EN 1946-2, EN 12664, EN 12667, EN 12939
Sample Thickness	15–200 mm (single-plate), 15–100 mm per plate (double-plate)
Sample Area	100×100 – 300×300 mm² (standard), up to 600×600 mm² (optional)
Hot Plate Temperature Range	–5 to 70 °C
Cold Plate Temperature Range	–15 to 60 °C

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Netzsch TAURUS GHP 900 Guarded Hot Plate Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TAURUS GHP 900
Measurement Principle	Guarded Hot Plate (GHP)
Standard Compliance	ISO 8302, ASTM C177, EN 12664, EN 12667, EN 12939, EN 1946-2
Thermal Conductivity Range	0.005 – 2.0 W/(m·K)
Accuracy	±1.0%
Repeatability	±0.5%
Sample Thickness (Single-Sided)	15 – 280 mm
Sample Thickness (Double-Sided)	2 × 15 – 140 mm
Sample Area	200 × 200 mm to 500 × 500 mm (optional up to 900 × 900 mm)
Cold Plate Temperature Range	−10 to +60 °C
Hot Plate Temperature Range	0 to +70 °C
Chamber Dimensions (H × W × D)	233 × 146 × 126 cm
Guarded Enclosure	Full adiabatic shielding with active temperature control
Automation	Motorized upper plate lift, adjustable heating area, multi-directional sample access

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Netzsch TAURUS GHP 900 S Guarded Hot Plate Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TAURUS GHP 900 S
Measurement Principle	Guarded Hot Plate Method
Test Range	0.005–2.0 W/(m·K)
Accuracy	±1.0%
Repeatability	±0.5%
Sample Thickness (Single-Sided)	15–380 mm
Sample Thickness (Double-Sided)	2×15–180 mm
Sample Area	200×200–500×500 mm (optional: 900×900 mm or 800×800 mm for insulating glass)
Cold Plate Temp Range	−10 to 60 °C
Hot Plate Temp Range	0 to 70 °C
Dimensions (H×W×D)	235×130×120 cm
Standards Compliance	ISO 8302, ASTM C177, EN 1946-2, EN 12664, EN 12667, EN 12939, EN 674

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Netzsch TCA 300 Heat Flow Meter Thermal Conductivity Analyzer

2026-01-14 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TCA 300
Measurement Principle	Heat Flow Meter (HFM) Method
Dimensions (L×W×H)	44 × 40 × 62 cm
Accuracy	±1.0%
Thermal Conductivity Range	0.002 – 1.0 W/(m·K)
Repeatability	±0.5%
Sample Size (L×W)	100 × 100 mm to 300 × 300 mm
Sample Thickness (H)	5 – 100 mm
Cold Plate Temperature Range	−20 °C to +60 °C
Hot Plate Temperature Range	−10 °C to +70 °C
Compliance	ISO 8301, ASTM C518, DIN EN 1946-3, EN 12664, EN 12667, EN 12939

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Netzsch TCA 500 Heat Flow Meter Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TCA 500
Measurement Principle	Heat Flow Meter Method (HFM)
Dimensions (H×W×D)	179 × 80 × 90 cm
Thermal Conductivity Range	0.005 – 1.0 W/(m·K)
Accuracy	±1.0%
Repeatability	±0.5%
Sample Size (L×W)	250 × 250 mm to 500 × 500 mm
Sample Thickness (H)	10 – 120 mm
Cold Plate Temperature Range	−20 °C to +60 °C
Hot Plate Temperature Range	−10 °C to +70 °C
Standards Compliance	ISO 8301, ASTM C518, DIN EN 1946-3, EN 12664, EN 12667, EN 12939

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Netzsch TDW 4040 Guarded Hot Box Thermal Transmittance Testing System

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TDW 4040
Measurement Principle	Guarded Hot Box (Steady-State Heat Flow Method)
Instrument Type	Thermal Transmittance (U-value) and Thermal Resistance (R-value) Analyzer
External Dimensions (H×W×D)	300 × 500 × 360 cm
Weight	3890 kg
Temperature Range (Hot Side)	10–40 °C
Temperature Range (Cold Side)	−10–40 °C
Sample Area Options	1500 × 1500 mm or 2000 × 2000 mm
Maximum Sample Thickness	360 mm (Standard), 560 mm (Extended)
Thermal Resistance Range (R)	0.10–8.00 m²·K/W
Accuracy	±3.0% (per DIN EN 12937 & ISO 8990)
Repeatability	±1.0%
Cooling System	Water-Cooled Circulating Chiller
Compliance	DIN EN 12937, DIN EN 1934, ISO 8990, ASTM C1363, EN ISO 10211
Software	HotBox v5.x (Single-User License)
Test Frame	Insulated, Forklift-Compatible Roller Base with Adjustable Aperture

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Netzsch TDW 4140 Guarded Hot Box System

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TDW 4140
Measurement Principle	Guarded Hot Box (Steady-State Heat Flow Method)
Compliance Standards	DIN EN ISO 8990, DIN EN 1946-4, DIN EN ISO 12567, DIN EN 12412-2, ASTM C1363
Test Chamber Dimensions (Closed)	400 × 400 × 405 cm (H×W×D)
Test Chamber Dimensions (Open)	400 × 610 × 405 cm (H×W×D)
Sample Capacity (Windows)	up to 2180 × 1480 mm (H×W)
Sample Capacity (Doors)	up to 2180 × 2000 mm (H×W)
Maximum Sample Thickness	340 mm
Thermal Resistance Range (R-value)	0.10 – 8.00 m²·K/W
Thermal Transmittance Range (U-value)	0.12 – 3.70 W/m²·K
Temperature Control Range (Hot Side)	10 – 40 °C
Temperature Control Range (Cold Side)	−10 – 40 °C
Accuracy	±3.0%
Repeatability	±1.0%
Cooling System	Water-cooled recirculating chiller
Software	HotBox v5.x (Single License)
Weight	4260 kg
Sample Handling	Motorized roller base with fork-lift access ports
Insulation Configuration	Fully guarded hot box with calibrated heat flux sensors and precision temperature mapping

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Netzsch TDW 4240 Guarded Hot Box System

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TDW 4240
Measurement Principle	Guarded Hot Box (Steady-State Heat Flow Method)
Compliance Standards	DIN EN ISO 8990, DIN EN 1946-4, DIN EN ISO 12567, DIN EN 12412-2, ASTM C1363
Thermal Resistance Range (R-value)	0.10 – 8.00 m²·K/W
Thermal Transmittance Range (U-value)	0.12 – 3.70 W/m²·K
Sample Height (Windows)	up to 2180 mm
Sample Width (Windows)	up to 1480 mm
Sample Height (Doors)	up to 2180 mm
Sample Width (Doors)	up to 2000 mm
Maximum Sample Thickness	560 mm
Cold Chamber Temperature Range	−15 °C to +40 °C
Hot Chamber Temperature Range	+10 °C to +60 °C
Enclosure Dimensions (Closed)	400 × 400 × 405 cm (H × W × D)
Enclosure Dimensions (Open)	400 × 610 × 405 cm (H × W × D)
System Weight	4680 kg
Accuracy	±3.0%
Repeatability	±1.0%
Cooling System	Water-cooled recirculating chiller
Sensor Configuration	Two guarded heat flux meters with protective plates
Test Frame	Insulated test frame with roller base and opening for forklift-assisted sample loading
Software	HotBox™ v5.x (single-user license)
Power Supply	400 V, 3-phase, 50/60 Hz

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Netzsch TLR 1000 Guarded Hot Pipe Thermal Conductivity Analyzer

2026-03-26 Physical Property Testing Instruments, Thermal Analysis Instruments, Thermal Conductivity Analyzer

Brand	Netzsch
Origin	Germany
Model	TLR 1000
Measurement Principle	Guarded Hot Pipe Method
Standards Compliance	DIN EN ISO 8497, DIN EN 1946-5, DIN 52613, ASTM C 534, ASTM C 335
Thermal Conductivity Range	0.001–0.25 W/(m·K)
Accuracy	±1.0%
Repeatability	±0.5%
Sample ID	18–89 mm
Sample OD	30–220 mm
Test Chamber Temperature Range	−15 to +140 °C
Heating Pipe Temperature Range	20 to +200 °C
Dimensions (H×W×D)	45×185×50 cm
Sample Throughput	Multi-sample sequential operation
Operating Environment	Ambient laboratory conditions

Thermal Conductivity Analyzer

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