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Microwave Digestion System LMWD-C12 offers a temperature control accuracy of ± 0.1℃ for precise thermal stability for consistent sample digestion. It features a multi-sample capacity mode, allowing simultaneous digestion of multiple samples. The digestion system includes a built-in cooling system for extending the vessel's lifespan by avoiding thermal shock and overcooling. Our microwave digestion system features piezoelectric pressure sensors, delivering contact-free pressure monitoring and control for each vessel to ensure contamination-free digestion.
| Microwave cavity | 65L, 316L stainless steel and outer multi-layer corrosion resistant PFA Teflon spraying. |
| Microwave Source | 2450 MHz, dual magnetron high-energy emission. |
| Temperature Control | Real time detection, temperature and curve, display inside dissolving tank: maximum temperature ≥300°C. |
| Pressure Control | G-pressure monitors, overpressure adjustment, automatic alarm |
| Pressure Control Range | 0 to 15 MPa |
| Pressure Measurement | Piezoelectric pressure sensor External digestion tank pressure: ≥ 20MPa Internal digestion tank pressure: ≥ 4MPa Volume: ≥100 ml |
| Pressure Display Accuracy | ± 0.1MPa |
| Temperature Measurement | Optical fiber sensors |
| Temperature Control Accuracy | ± 0.1℃ |
| Temperature Measurement System | -50 to -350℃ |
| Full Tank Temperature | 0 to 350℃ |
| Control Accuracy | ± 0.1°C |
| External Interface | USB, RS-232 |
| Sample Reaction Outer Tank | PEEK material explosion-proof external tank. |
| Furnace Exhaust System | High-power axial flow fan, turbulent high-efficiency air cooling, 15 min from 200℃ to 60℃ in 15 minutes. |
| Working Environment | 0 to 40 °C, 15 to 80% RH |
| Batch Volume | 32 Hard Drive, 2G Memory |
| Magnetic Stirring | 50 sets |
| Inner Tank Material | Imported TFM |
| Outer Tank Material | G-Fiber |
| Rotor Frame | High strength turntable integrated frame |
| Reaction Tank Volume | 55 ml, 100 ml, 110 ml |
| Name of Reaction Tank | 40 tanks with high pressure resistance |
| Batch Amount | Maximum 40 positions |
| Maximum Pressure | 16 MPa |
| Maximum Temperature | 310°C |
| Display Screen | Large 7-inch touch LCD screen. |
| Software System | The ARM chip comes with a ZG operating system. |
| Installation Power of Machine | 3200W |
| Power Supply | 220-240 VAC 50/60Hz, 15A |
| Dimension | 580mm × 680mm × 720mm |
| Net Weight | 65 kg |
Electromagnetic Protection Design
Real-Time Video Technology
Inner Cavity Spraying
Multi-Layer PFA
Optical Fiber Temperature Sensor
Microwave Digestion System LMWD- C12 enables rapid and efficient sample preparation by decomposing complex matrices. It is extensively utilized in research and development in chemistry, automotive, aerospace, textiles and metallurgy for accelerating material preparation.
Name | Quantity |
High-pressure digestion reactor inner vessel, 100ml | 40 set |
High-pressure digestion reactor outer vessel | 40 set |
High-precision fiber optic temperature sensor | 1 set |
Exhaust hose | 1 piece |
Glass conduit | 1 piece |
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Microwave Digestion System LMWD-C12 Catalog
Available Range :
Microwave Digestion System LMWD-B12 : 316L stainless steel cavity with corrosion-proof coating Microwave Digestion System LMWD-C10 : 65L, 316 L stainless steel and outer multi-layer corrosion resistant PFA Teflon spraying. Microwave Digestion System LMWD-C12 : 65L, 316L stainless steel and outer multi-layer corrosion resistant PFA Teflon spraying. Microwave Digestion System LMWD-A14 : 65L, 316L stainless steel with multi-layer PFA Teflon coating Microwave Digestion System LMWD-A11 : SS316 with 10 layer Teflon Microwave Digestion System LMWD-A10 : SS316 with 8 layer TeflonLabtron Microwave Digestion System offers a wide temperature and pressure range for diverse digestion requirements. They include multiple safety protection functionalities, ensuring operator well-being. Maintains data integrity with reliable data logging and storage capabilities. Their intuitive operation with a user-friendly interface allows easy programming. Our microwave digestion system accesses pre-programmed digestion methods to specific sample types and research requirements.
Labtron supplies advanced models of microwave digestion system LMWD-C12. After digestion, built-in cooling systems—including internal /external high-speed fans or exhaust turbo blowers—rapidly lower vessel temperature and pressure. This minimises turnaround time by enabling quicker sample retrieval and preparation for analysis. It also avoids thermal shock, which can degrade vessel integrity over multiple cycles. As a result, vessel lifespan is extended, lowering operational costs while maintaining consistent digestion conditions batch after batch
Labtron’s Microwave digestion system LMWD-C12 dramatically reduces prep time (minutes instead of hours or days) by achieving high temperatures and pressures in sealed vessels. It also uses fewer reagents, generates lower blanks, and facilitates better recovery of volatile elements compared to hot-plate or dry-ashing methods. Choosing the right system involves evaluating max microwave power, sensor type (e.g., fiber-optic for temperature), vessel capacity, method support, and maintenance availability.
Labtron supplies premium microwave digestion system LMWD-C12.Uniform microwave distribution, often achieved through rotating turntables or multimode cavities, ensures consistent heating across all vessels. Without it, differences in sample matrix and vessel position can lead to uneven digestion results. Systems offering 16–32 position rotors maintain high throughput without compromising uniformity. Consistency in heating supports reliable trace element recovery and compliance with QC criteria. This design consideration is particularly relevant in high-throughput labs running environmental or industrial sample batches
Microwave digestion system LMWD-C12 dramatically reduces reaction time—minutes instead of hours or days—thanks to elevated temperatures and pressures in sealed vessels. It also minimizes reagent volume, reduces sample contamination, and enables efficient digestion of volatile elements like Hg or As. In contrast, open-vessel methods can cause losses and extended preparation times. Microwave systems improve both safety and throughput, making them preferred for elemental analysis via ICP-MS, AAS, or ICP-OES.
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Labtron Equipment Ltd., Quatro House, Lyon Way, Camberley, Surrey GU16 7ER United Kingdom
Email: info@labtron.com Whatsapp: +44 20 8004 3587 Phone: +44 2080 043608