Overview
Laboratory Jet Mill
Laboratory jet mills are recommended for process and product research and development work. High fineness can be obtained with this mill, independent of the load in the air jets.
Laboratory jet mills are small, easy to disassemble and easily cleaned. All lab mills are of all stainless steel 304 or 316L construction. Sanitary-design lab mills are most popular due to their sanitary fittings and the fact that they are designed for ease of disassembly. Not even hand tools are required.
D97<2μm
Fineness Range
50g/h+
Small Batch
0°C
Temperature Rise
Features
Compact, cleanable, and configurable for hygienic environment.
Rapid Disassembly
Designed for high-frequency R&D environments, the system features a modular clamp-connection structure. This allows for complete disassembly of all contact parts in under 3 minutes without the need for specialized tools.
Small Batch Processing
Handles sample sizes from a few grams to several hundred grams, ideal for R&D, formulation development, and feasibility studies with minimal material waste.
Compact Footprint
Its "plug-and-play" design allows for easy integration into existing lab workflows or placement. Engineered with advanced acoustic insulation, the system operates at a significantly reduced decibel level.
Specification
| Model | Chamber Ø (mm) | Capacity (g/hr) | Air Consumption (m³/min) | Working Pressure (MPa) |
|---|---|---|---|---|
| AS50 | 50 | 50 - 500 | 0.6 - 0.9 | 0.6 - 1.0 |
| AS100 | 100 | 500 - 1000 | 1.6 - 2.0 | 0.6 - 1.0 |
| LHC80 | 80 | 100 - 1000 | 0.6 - 1.5 | 0.6 - 1.0 |
* Capacity values are indicative and depend on material properties, target fineness, and operating pressure.
** The specific feed size depends on the chamber size and material hardness.
General Parameters
- Achievable D97 < 2 - 10 μm
- Feed Particle Size (max) ≤ 1 mm
- Batch Volume 5 g - 1 kg
- Surface Finish (Ra) ≤ 0.4 μm
- Gas Type Air / N₂ / Ar
- Certifications CE / GMP
Download Full Technical Datasheet
Get the complete specifications, and performance data in one document. PDF · ~2MB
Applications
Designed for lab-scale R&D
Drug Development
Ideal for micronizing Active Pharmaceutical Ingredients for dry powder inhalers. It achieves the precise particle size range required for deep lung deposition.
Cathode & Anode
Perfect for next-gen battery materials. Precision grinding optimizes particle distribution for better battery capacity and coating consistency.
Special Chemical
The contamination-free grinding process ensures that high-purity materials, such as rare-earth phosphors or ceramic slurries, maintain their optical and electrical properties.
Cosmetic Active Ingredients
Perfect for premium cosmetics. It reduces active ingredients to sub-micron levels, creating a transparent finish and a silky, non-greasy feel on the skin.
Lab-to-Production Pathway
Scale-Up with Certainty
Material Submission
Submit your material sample and key requirements. Our engineers review material properties (hardness, moisture, flowability etc.) to define the testing strategy.
Lab-Scale Trials
We run controlled jet milling tests at lab scale to evaluate grinding behavior, particle size distribution, and process stability under different conditions.
Process Parameter Mapping
Lab data is translated into a validated process window, including pressure, feed rate, inlet temperature, and classifier speed, ensuring stable and repeatable performance.
Turnkey Production Line
We design and deliver a full production-scale jet mill system with optimized parameters, ready for industrial operation, including installation and commissioning support.
FAQ
Answers to the most common technical and commercial questions from procurement managers and process engineers evaluating lab jet mills.
Still have questions?
Our engineers are available for a 30-minute technical consultation.
Book a ConsultationHow much material does a lab jet mill require?
Is a lab jet mill easy to clean between samples?
Yes. Our lab jet mills have:
- Minimal internal parts.
- Rapid disassembly (often tool‑free).