The AELAB CS-910 Carbon and Sulfur Analyzer is engineered for simultaneous carbon and sulfur determination in metals and inorganic materials with minimal sample preparation. Using solid state infrared absorption and high frequency induction heating, the CS-910 delivers fast, stable, and repeatable elemental analysis for both laboratory testing and production quality control.
Equipped with advanced infrared optics, reliable electronics, and an automatic vacuum-free dust cleaning system, the AELAB CS-910 Carbon and Sulfur Analyzer reduces maintenance requirements while maintaining analytical precision across a wide concentration range.
The AELAB CS-910 Carbon and Sulfur Analyzer integrates a vertical high frequency induction furnace with automatic optical chamber temperature control. Ceramic crucibles ensure chemical resistance during combustion, while robust internal electronics enable fault detection and stable long-term operation in industrial environments.
The AELAB CS-910 Carbon and Sulfur Analyzer combusts inorganic samples using high frequency induction heating in an oxygen-rich environment. Carbon and sulfur released during combustion are quantified by solid state infrared absorption detectors, enabling precise concentration measurement within seconds.
The AELAB CS-910 Carbon and Sulfur Analyzer operates with external electronic balance, monitor, and PC integration. Optional printer support enables result documentation for quality control and laboratory reporting.
| Model | CS-910 |
| Detection Method | Solid State Infrared Absorption |
| Carbon Range | 0.0001%–15.0000% |
| Sulfur Range | 0.0001%–5.0000% |
| Weight | 80 kg |
The AELAB CS-910 Carbon and Sulfur Analyzer is used for elemental analysis in steel and metallurgy, nonferrous metals, cement, minerals, glass, ceramics, and other inorganic materials where accurate carbon and sulfur quantification is required.
The AELAB CS-910 Carbon and Sulfur Analyzer is designed for ISO-aligned laboratory workflows, supporting repeatable measurement performance, controlled operating conditions, and traceable analytical results suitable for industrial quality assurance.
Specifications :
TECHNICAL PARAMETER
| Measured Elements | Carbon(C) 0.0001 %-15.0000% / Sulfur (S) 0.0001 %-5.0000% |
| Samples | Inorganic |
| Electronic Balance | Weighing Range: 0-100g(Resolution 0.0001 g) |
| Furnace Alignment | Vertical |
| Sample Carrier | Ceramic Crucibles |
| Field of Application | Construction materials/ Engineering /Electronics, Geology / Mining, Glass / Electronics, Geology / Mining, Glass / Ceramics, Ceramics,Steel / Metallurgy |
| Furnace | Optical Chamber temperature is controlled automatically High frequency furnace, 3.5kVA 20MHz |
| Detection Method | Solid state infrared absorption |
| Typical Analysis Time | 26 - 60s, Average: 35s |
| Gas Required | Industry Oxygen 99.9 % |
| Power Requirements | AC220 V, ±5% 50Hz±2% |
| Dimensions | 600mm(L) x 540mm(W) x 800 mm(H) |
| Weight | 80kg |
| Required Equipment | Electronic balance, monitor, PC |
| Operating Temperature | 0-30 ℃ RH:<75% |
| Optional Accessories | Printer, PC |
| Detector | CMOS detector from Japan |
| Frequency | 27.12MHz |
| Frequency Stability | <0.05% |
| Induction Coil | ID 25mm×3, high frequency coil coated with Silver |
| Three Concentric Quartz Torch Tubes | Optional |
| Peristaltic Pump | 4 channels, 12 roller, speed can be adjusted |
| Wavelength Range | 165nm-900nm |
| Resolution | <7pm-200nm |
| Optical Temperature | 34°C±0.1°C |
| Repeatability | short-term stability RSD<0.5% |
| Stability | RSD<1% within 2 hours |
| Testing Speed | Single CMOS within 2ms |
| Limits of Detection (LOD) | for typical elements 1ppb-10ppb( μg/L) |
| General Argon Consumption | Less than 16L /min |
| Main Power Supply | AC220V/20A |
| Output Power | 800W~1600W |
| Size | 1380*836*740mm(LxWxH) |
TECHNICAL PARAMETER
| Measured Elements | Carbon(C) 0.0001 %-15.0000% / Sulfur (S) 0.0001 %-5.0000% |
| Samples | Inorganic |
| Electronic Balance | Weighing Range: 0-100g(Resolution 0.0001 g) |
| Furnace Alignment | Vertical |
| Sample Carrier | Ceramic Crucibles |
| Field of Application | Construction materials/ Engineering /Electronics, Geology / Mining, Glass / Electronics, Geology / Mining, Glass / Ceramics, Ceramics,Steel / Metallurgy |
| Furnace | Optical Chamber temperature is controlled automatically High frequency furnace, 3.5kVA 20MHz |
| Detection Method | Solid state infrared absorption |
| Typical Analysis Time | 26 - 60s, Average: 35s |
| Gas Required | Industry Oxygen 99.9 % |
| Power Requirements | AC220 V, ±5% 50Hz±2% |
| Dimensions | 600mm(L) x 540mm(W) x 800 mm(H) |
| Weight | 80kg |
| Required Equipment | Electronic balance, monitor, PC |
| Operating Temperature | 0-30 ℃ RH:<75% |
| Optional Accessories | Printer, PC |
| Detector | CMOS detector from Japan |
| Frequency | 27.12MHz |
| Frequency Stability | <0.05% |
| Induction Coil | ID 25mm×3, high frequency coil coated with Silver |
| Three Concentric Quartz Torch Tubes | Optional |
| Peristaltic Pump | 4 channels, 12 roller, speed can be adjusted |
| Wavelength Range | 165nm-900nm |
| Resolution | <7pm-200nm |
| Optical Temperature | 34°C±0.1°C |
| Repeatability | short-term stability RSD<0.5% |
| Stability | RSD<1% within 2 hours |
| Testing Speed | Single CMOS within 2ms |
| Limits of Detection (LOD) | for typical elements 1ppb-10ppb( μg/L) |
| General Argon Consumption | Less than 16L /min |
| Main Power Supply | AC220V/20A |
| Output Power | 800W~1600W |
| Size | 1380*836*740mm(LxWxH) |
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