Scaled up SRC technology
for ultimate throughput.
ultraCLAVE Microwave Digestion System








Extraordinary performance
Direct microwave heating in a high pressure reactor offers speed, high quality results and reproducibility.
Extremely high throughput
A larger single reaction chamber accommodates up to 40 samples in 20 mL disposable vials.
Long-term savings
Cost savings are achieved from reduced acid usage, consumables and need for labor.
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Improving Extractables and Leachables and Trace Metal Testing of Pharmaceutical Packaging.
Is your lab getting ready for USP <232>/<233> compliance?
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The ultraCLAVE shares Single Reaction Chamber (SRC) technology with the ultraWAVE, offering all the same great benefits. However, its larger reaction chamber can accommodate up to 40 samples in 20 mL disposable glass vials, making it the most productive microwave digestion system ever. The ultraCLAVE also delivers the biggest savings in labor and consumables costs, rapidly repaying its higher initial investment cost in high throughput labs.
The ultraCLAVE is designed for simplicity of use.
The ultraCLAVE performs beyond the current limitations of traditional microwave sample preparation. Chemists can digest large sample masses, large batches of mixed sample types, and even the toughest sample matrices requiring sustained high temperatures.
Cross-contamination is non-existent and extremely high throughput can be achieved. Finally, reduced acid usage, consumables, and need for labor provide long-term cost savings.
The patented Milestone ultraCLAVE achieves extraordinary performance capabilities by combining direct microwave heating in a high pressure reactor. It offers all the advantages familiar to microwave users: speed, quality of results, reproducibility, and no pollution of the laboratory or environment, while overcoming the restrictions of traditional microwave digestion systems.
Microwave energy is introduced into the reactor through a unique microwave port. This focused-multimode cavity design ensures maximum sample heating efficiency.
Heat generated in the reactor is removed by a re-circulating cooling system, and the stainless steel reaction vessel remains near room temperature throughout the entire heating cycle.