Sample preparation equipment
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Laboratory centrifuges
- Frontier centrifuge
- FRONTIER 5000 MULTI Centrifuge
- FRONTIER 5000 MULTI-PRO laboratory centrifuge
- FRONTIER 5000 MICRO Microcentrifuge
- FRONTIER 5306 MINI Centrifuge
- Centrifuges 260/352/380 series
- Centrifuges 54/55/56 series
- MPW centrifuge M series
- MPW centrifuges with cooling
- Centrifuges with cooling and heating
Laboratory Test Preparation Equipment
The foundation of chemical analysis is reliable sample preparation. Modern automation effectively eliminates human error, making it easier to maintain GLP standards and the full audit trail.
Achieving repeatability of results is possible thanks to the use of professional equipment:
- DiluFlow thinners for accurate weighing of mass,
- TITRETTE precision digital burettes for simple dosing,
- Efficient Sigma centrifuges for separating substances,
- specialized tablet presses for molding liquids,
- mechanical agitators and heating blocks for solutions.
The process is complemented by digital controllers, which give full control over the course of the analysis. Choosing equipment with a chemical-resistant steel enclosure ensures durability and reliability in any laboratory.
Homogenizers, agitators and laboratory centrifuges
Precise material preparation is the foundation of research, which is why it is worth choosing modern homogenizers. Mechanical and ultrasonic models guarantee reproducible results, and paddle devices eliminate the risk of infections. Ball grinders will work best for hard structures.
The choice of equipment depends on the viscosity and sensitivity of the samples. In a professional laboratory, the following are useful:
- magnetic stirrers with brushless drive,
- efficient mechanical agitators for dense liquids,
- rotators for biological materials,
- vortex shakers for fast mixing,
- laboratory centrifuges with cooling system.
The digital control used provides full control of parameters, and interchangeable adapters allow you to adjust the equipment to different vessels, which significantly speeds up daily analyses.
Cutters, grinders and balers for scraping
Precise testing of the structure of metals requires impeccable sample preparation. Metallographic cutters with cooling systems that protect the material from overheating play a key role. The preparations are then mounted in resin using hydraulic presses, which stabilizes the workpiece and ensures precision of further processing.
The following are key in the sample preparation process:
- metallographic cutters with a cooling system,
- hydraulic presses for sample mounting,
- grinder-polishers with diamond discs,
- milling machines for copper and aluminum processing,
- dedicated sharpeners for tungsten electrodes,
- devices for precise ion etching,
- Integrated dedusting and filtering systems.
Modern ion etching allows you to extract details in the steel structure, and dust collection systems take care of the safety of the operator. Such equipment makes work in the laboratory more efficient and cleaner.
Mills, crushers and sieves for crushing tests
Professional processing of solids requires uniformity of material, which is the foundation of reliable laboratory testing. Advanced equipment allows you to achieve a homogeneous mass at the micro level, moving from a raw lump to a precisely prepared sample. Our offer includes specialized solutions:
- jaw crushers designed for breaking the hardest structures,
- knife mills, including the precise model IKA PX-MFC 90 D,
- analytical sieves and mechanical screens for grain size verification,
- averaging devices to facilitate sampling from large batches of goods,
- microtomes and automated tissue processors for advanced analysis,
- Equipment for testing molding masses enabling quality control.
Repeatability of results and stability of measurements under all conditions are crucial in industrial processes . The technologies we provide guarantee the highest precision, supporting both routine research and innovative development.
SPE, SLE and Microwave Pulping Extraction Systems
Modern analytical chemistry focuses on achieving the highest precision through advanced process automation. Effective sample purification is based on SPE and SLE techniques, supported by vacuum systems with inert gas purge. A key role in modern laboratories is played by specialized equipment that guarantees purity and repeatability of results:
- microwave acid digestion systems,
- classic Soxhlet extractors,
- Kjeldahl precision mineralizers,
- specialized columns for separation of components,
- advanced injection molding machines and extruders,
- manual laboratory presses,
- powerful CHT analyzers.
The use of these methods allows for effective analysis of biological material, including efficient removal of proteins and phospholipids and cell lysis. Innovative microwave-assisted peptide synthesis significantly speeds up research work while maintaining full control over process parameters.
The final stages of work require professional freeze-drying and drying with the use of reliable equipment. Dedusting systems such as cyclones are also essential in material testing, which ensure the sterility of the working environment. Thanks to such selected instrumentation, each stage of the test cycle meets the highest quality standards.
Selection of Sample Preparation Apparatus
The choice of professional laboratory equipment depends on the specifics of the samples and strict quality standards. Stable conditions are provided by thermostats and circulating coolers, which, together with water baths, protect the material from unwanted heat fluctuations.
In biochemical research, electrophoresis devices are standard, enabling efficient separation of proteins and nucleic acids. Modern systems offer a number of important benefits:
- precise separation of molecules on gels,
- monitoring of analysis in real time,
- effective protection of the material against overheating,
- full repeatability of the data obtained,
- intuitive operation and easy setup.
Investing in certified equipment is a guarantee of credibility of results, which is the basis for success in a professional laboratory environment.


















