A High-Performance Vacuum Oven for Controlled Drying
The Heraeus VT 6130 M vacuum oven is specifically designed to meet the needs of laboratories and industrial environments requiring delicate and uniform drying. Its wall heating system ensures stable thermal transfer, allowing for controlled and homogeneous temperature rise throughout the drying chamber. This design minimizes thermal losses and improves the energy efficiency of the device.
The drying chamber of the VT 6130 M is made of electro-polished stainless steel (1.4571), offering optimal corrosion resistance and easy cleaning. With a capacity of 128 liters, it can handle large volumes while maintaining rigorously controlled vacuum conditions.
The oven is equipped with a Kelvitron® T controller, which provides precise management of temperature and vacuum, ensuring perfect reproducibility of processes. Electronic regulation prevents any thermal fluctuations that could alter sensitive samples. An analog pressure display offers quick and reliable readings of working conditions.
In terms of safety, the VT 6130 M integrates several essential features: automatic cut-off in case of overheating to protect samples and the device, as well as a safety valve to prevent overpressure in the chamber. A rapid ventilation valve is also included, allowing for efficient depressurization at the end of the cycle.
One of the key advantages of the VT 6130 M is its versatility. It is designed to operate under controlled atmospheres thanks to an inert gas connection, ensuring perfect adaptation to the specific needs of pharmaceutical laboratories, research institutes, and high-tech industries.
Its modular design allows the device to be adapted to the requirements of each user. It is compatible with various accessories, including stainless steel or aluminum trays, vacuum connection systems, and support frames that facilitate its integration into an existing workspace.
Thanks to its robust structure and high-performance heating system, the VT 6130 M is particularly suited for applications requiring controlled dehydration, solvent evaporation under vacuum, or the stabilization of materials sensitive to heat and oxidation.
