Thermal Analysis Instruments
Filter
Showing 151–180 of 244 results
| 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 |
| 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 |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | MMC274 Nexus |
| Instrument Type | Accelerating Rate Calorimeter (ARC) |
| Measurement Mode | Adiabatic Calorimetry |
| Temperature Range | RT to 500°C |
| Temperature Resolution | 0.01°C |
| Pressure Range | 0–100 bar |
| Heating Rate | 0–2°C/min |
| Tracking Rate | 0–50°C/min (standard) or 0–250°C/min (high-speed module) |
| Temperature Control Accuracy | ±0.01°C |
| Pressure Accuracy | ±0.01 bar |
| Sample Volume | 0.1–2.5 mL |
| Heat Flow Sensitivity | 25–250 µW/g (mode-dependent) |
| Scan Sensitivity | 0.002°C/min |
| Sample Types | Solids, Liquids, Powders |
| Optional | Custom sample vessels, button-cell test fixture, VariPhi™ thermal compensation technology |
| 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 |
| 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 |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | RUL/CIC421 |
| Temperature Range | RT to 1600°C (standard), up to 1700°C (optional) |
| Sample Dimensions | Ø50 mm × 50 mm height |
| Deformation Measurement Range | 20 mm |
| Resolution | 5 nm |
| Load Range | 1 N to 1000 N |
| Atmosphere Options | Air or inert/protective gas (model-dependent) |
| Sample Geometry Requirement | Cylindrical specimen with coaxial 12.5 mm central bore |
| Measurement Principle | Differential displacement sensing under controlled load and temperature |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA 2500 Regulus |
| Heating Rate | 0–100 °C/min |
| Temperature Range | RT to 1100 °C (standard furnace) / RT to 1600 °C (high-temperature furnace) |
| Temperature Stability | ±0.3 K |
| Maximum Sample Mass | 250 mg |
| Atmosphere Options | Oxidizing, Reducing, Inert, Vacuum (dynamic or static) |
| Gas Control | Integrated Mass Flow Controllers (MFCs), software-regulated |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA 449 F3 Jupiter |
| Temperature Range | −150 to 2400 °C |
| Heating Rate | 0–50 °C/min (standard) |
| Temperature Stability | ±0.3 K |
| Maximum Sample Mass | 35 g |
| Balance Resolution | 0.1 µg |
| Vacuum Level | 10⁻⁴ mbar |
| Atmosphere Options | Oxidizing, Reducing, Inert, Vacuum |
| Optional Modules | TMDSC, Tau-R® Cp Calibration, BeFlat® Baseline Optimization, ASC Auto-sampler (20 positions), Coupling to FTIR/MS/GC-MS, Steam Furnace, Corrosive Gas Kit |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA 509 Jupiter Classic |
| Temperature Range | RT to 1600 °C |
| Heating Rate | 0.001–50 °C/min |
| Max Sample Mass | 35 g |
| Atmosphere Options | Inert, Oxidizing, Static, Dynamic, Vacuum, Corrosive (optional) |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA 509 Jupiter Supreme |
| Temperature Range | –150 °C to 2000 °C |
| Maximum Sample Mass | 5 g |
| Atmosphere Options | Inert, Oxidizing, Static, Dynamic, Vacuum, Corrosive (optional) |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA-GC-MS |
| Operating Temperature Range | RT to 350 °C |
| Coupling Interface | Heated Transfer Line (up to 350 °C) with Six-Port Valve Box |
| Trigger Mode | Event-Driven Synchronization |
| Software | Fully Integrated, Real-Time Hardware Synchronization |
| Standalone Operation | Yes (STA and GC-MS operate independently) |
| Compliance | Designed for GLP/GMP environments |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA/TG-FTIR |
| Operating Temperature Range | RT to 350 °C |
| Gas Transfer Path | Heated Entirely (Prevents Condensation) |
| Gas Residence Time | Short |
| Carrier Gas Flow Rate | Low (Minimizes Dilution Effect) |
| Measurement Mode | Synchronized Simultaneous STA–FTIR Acquisition or Independent Operation |
| Software Architecture | Fully Integrated, Core-Embedded Control with Hardware-Automated Triggering |
| Sample Introduction | Top-Loading Vertical TGA Configuration (Ensures Quantitative Evolved Gas Transfer) |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA/TG-FTIR-GC-MS |
| Operating Temperature Range | RT to 350 °C |
| Gas Transfer Path | Heated (up to 350 °C) |
| Coupling Architecture | Parallel FTIR and GC-MS interfaces |
| Sample Introduction | Top-loading vertical TGA configuration |
| Trigger Mode | Event-driven hardware synchronization |
| Software | Fully integrated, real-time synchronized control platform |
| Compliance Support | ASTM E1131, ISO 11358, USP <621>, GLP-compliant audit trail capability |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA/TG-FTIR-MS |
| Mass Range | 1–300 amu |
| Transfer Line Temperature | RT to 350 °C |
| Gas Path | Heated, Condensation-Free |
| Detection Sensitivity | High |
| Gas Residence Time | Short |
| Carrier Gas Dilution Effect | Minimal |
| FTIR & MS Operation Modes | Simultaneous or Standalone |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | STA/TG-MS |
| Mass Range | 1–300 amu (capillary interface) / 1–1024 amu (SKIMMER® interface) |
| Interface Temperature Range | RT–350 °C (capillary) / RT–2000 °C (SKIMMER®) |
| Sample Introduction | Top-loading vertical TGA configuration |
| Gas Transfer | Heated capillary or SKIMMER® transfer line, fully temperature-controlled |
| Data Synchronization | Hardware-triggered real-time coupling with dual acquisition control |
| Software Architecture | Fully integrated native-core platform with synchronized thermal and MS data acquisition |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | TG 309 Libra Classic |
| Temperature Range | 10 °C to 1025 °C |
| Temperature Accuracy | ±0.15 K |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | TG 309 Libra Select |
| Temperature Range | 10 °C to 1025/1100 °C |
| Temperature Accuracy | ±0.15 K |
| Heating/Cooling Rate | 0–200 K/min |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | TG 309 Libra Supreme |
| Temperature Range | 10 °C to 1100 °C |
| Temperature Accuracy | ±0.15 K |
| Heating/Cooling Rate | 0–200 K/min |
| Brand | Netzsch |
|---|---|
| Origin | Germany |
| Model | TG209F1 Libra |
| Temperature Range | 10 °C to 1100 °C |
| Temperature Accuracy | ±0.2 K |
| Balance Sensitivity | 0.1 µg |
| Heating/Cooling Rate | 0–200 K/min |
| Cooling Time | <15 min (1100 °C → RT) |
| Vacuum Level | 10⁻² mbar |
| Maximum Sample Mass | 2 g |
| Furnace Material | Corrosion-Resistant Ceramic |
| Baseline Correction | BeFlat® Intelligent Baseline Compensation |
| Differential Thermal Signal | c-DTA® Function |
| Optional Automation | ASC Auto-Sampler (192 positions) |
| Optional Module | Temperature-Modulated TGA (TM-TG) |
| 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 |
| Brand | NETZSCH |
|---|---|
| Origin | Germany |
| Model | TMA 4000 SE |
| Temperature Range | –150 to 1700 °C |
| Temperature Accuracy | ±0.1 °C |
| Force Range | 0–4.9 N |
| Displacement Range | ±2.5 mm |
| Dynamic Frequency Range | 0.01–0.5 Hz |
| Measurement Modes | Expansion, Compression, Tension, Penetration, Bending, Dynamic Oscillation, Curing |
| Load Profiles | Constant Force, Sinusoidal (0.01–0.5 Hz), Triangular (0.01–0.2 Hz), Rectangular (0.01–0.1 Hz), Ramp Force (0–0.49 N/min) |
| Deformation Modes | Constant Strain, Strain Ramp (0–50 mm/min), Combined Modes |