For milling and micronization you need flexibility, precision, and efficiency. FPS Pharma multimilling custom systems meet these needs by integrating various milling technologies into a single, compact platform. It streamlines your operations and enhances your productivity. SMART BY DESIGN: • All the milling technologies you need in 1 single system. • Space-saving design reduces equipment footprint by 2-4 times (compared to stand-alone mills). • Eliminates product transfers between different milling units, significantly speeding up processing time and enhancing overall productivity. • Enhanced cleanability: fewer parts to clean and an advanced integrated design. • Safety containment options, including explosion-proof systems and specific solutions from OEB 4up to OEB 7 products. APPLICATIONS: • R&D / Laboratories • Pilot plants • Production plants Request the brochure at marketing@fps-pharma.com

The Multifunctional Sample Carousel enables the fully automatic sampling of samples with varying sizes. You determine the size of the samples, and how many samples of a particular size you need. Whereas the Sample Carousel could already take multiple samples completely automatically, the Multifunctional Sample Carousel takes things one step further. As the name suggests, this solution allows you to specify exactly what the sample sizes should be and how many samples of those sizes should be taken.

Laser Diffraction | Particle Size and Particle Size Distribution from 0.25 µm to 3,500 µm MYTOS integrates the established core technologies of HELOS laser diffraction and RODOS dry dispersion in a single robust body: a process-proven laser diffraction sensor for dry powders ranging from 0.25 µm to 3,500 µm. In combination with continuously operating sampling system TWISTER a complete integration into the processing pipe is realised making it a true in-line solution delivering representative results. Alternatively, MYTOS may be operated on-line either with TWISTER, MIXER, L-probes or existing sampling solutions. Integrated at-line operation in automated lab environments is succeeded with vibratory feeder VIBRI. For instance, typical applications comprise milling operations or spray granulation. MYTIS is first choice for granules or fragile particles. It combines HELOS laser diffraction technology with gravitational disperser GRADIS in a robust industrial system for a size range from 0.5 µm to 3,500 µm. The process-specific laser diffraction sensors find a wide range of applications from cement to pharmaceuticals, from roughest industrial conditions to GMP environments. If required, both systems may be configured for ATEX zones. » RODOS at MYTOS | injection disperser for finest, even cohesive powders | 0.25 µm to 3,500 µm » GRADIS at MYTOS | gravity disperser for coarser, even fragile dry particulate systems | 0.5 µm to 3,500 µm » VIBRI | vibratory feeder for precise dosing with adaption to proprietary sampler or for manual feeding (in at-line combination with MYTOS) » TWISTER | dynamic, representative sampler for installation in process pipes (in-line or or on-line in combination with MYTOS) » MIXER | static mixer for representative sampling behind screw feeder or feeding » L-probes | compact sampler with blow back unit or with pivoting Option

Flow Rate (max.): 35 l/min Pressure (max.): 1 bar (rel.) Vacuum (max.): 160 mbar (abs.) KNF diaphragm gas pumps transfer or compress gases and vapors and generate vacuum without contaminating the media. They are available with options for application requirements related to size, motor, control, voltage, chemical resistance, safety, vibration, noise and temperature resistance. All pump types offer oil-free operation.

Flow Rate (max.): 53 l/min Pressure (max.): 1 bar (rel.) Vacuum (max.): 140 mbar (abs.) KNF diaphragm gas pumps transfer or compress gases and vapors and generate vacuum without contaminating the media. They are available with options for application requirements related to size, motor, control, voltage, chemical resistance, safety, vibration, noise and temperature resistance. All pump types offer oil-free operation.

Flow Rate (max.): 36 l/min Pressure (max.): 0.1 bar (rel.) Vacuum (max.): 1.5 mbar (abs.) KNF diaphragm gas pumps transfer or compress gases and vapors and generate vacuum without contaminating the media. They are available with options for application requirements related to size, motor, control, voltage, chemical resistance, safety, vibration, noise and temperature resistance. All pump types offer oil-free operation.

Flow Rate (max.): 8.5 l/min Pressure (max.): 2.5 bar (rel.) Vacuum (max.): 100 mbar (abs.) KNF diaphragm gas pumps transfer or compress gases and vapors and generate vacuum without contaminating the media. They are available with options for application requirements related to size, motor, control, voltage, chemical resistance, safety, vibration, noise and temperature resistance. All pump types offer oil-free operation.

Flow Rate (max.): 16 l/min Pressure (max.): 2 bar (rel.) Vacuum (max.): 100 mbar (abs.) KNF diaphragm gas pumps transfer or compress gases and vapors and generate vacuum without contaminating the media. They are available with options for application requirements related to size, motor, control, voltage, chemical resistance, safety, vibration, noise and temperature resistance. All pump types offer oil-free operation.

Flow Rate (max.): 5 l/min Pressure (max.): 0.3 bar (rel.) Vacuum (max.): 7 mbar (abs.) KNF diaphragm gas pumps transfer or compress gases and vapors and generate a vacuum without contaminating the media. Different options are available for application-specific requirements related to size, motor type, control, voltage, chemical resistance, safety, vibration, noise, and temperature resistance. All pump types offer oil-free operation.

Intertek analytical nanotechnology laboratories measure nano-particle size, morphology, dispersion, uniformity, optical and physical properties, and chemical composition. We support regulatory compliance across REACH, Cosmetics Regulation and more. We also support R&D and innovation through to production and production problem solving. Intertek nanoscale nano-material research helps clients understand the use of inorganic fillers for the toughening of plastics, the incorporation of conductive particulates such as carbon nano-tubes to produce antistatic or electrically conductive composites, and the use of nano-clays to improve the barrier properties of films or coatings, among many other applications. Nano-scale materials research and development: Nano-particles analysis: Analysis of particle size and morphology using electron microscopy Application of image analysis to generate quantitative information on size and shape distributions Carbon nanotubes analysis using raman spectroscopy to monitor tube diameter and sample purity, and thermogravimetric analysis (TGA), as well as elemental analysis to provide information on sample purity or catalyst residue content Coating analysis using spectroscopic techniques, or by surface analysis Scratch Testing Nano-dispersions analysis: Optimum properties are dependent on achieving uniform dispersion (lack of aggregation), and sometimes on the control of orientation Use of techniques such as electron microscopy, x-ray diffraction and spectroscopic methods to characterise the composite morphology and quantify aspects of homogeneity or orientation Development of on-line measurements, as part of a manufacturing process Processing of nano-materials: Polymer matrix, filler content, physical properties and processing conditions investigations Mechanical properties (e.g., toughness, scratch resistance or impact strength) Optical performance (e.g., clarity, reflectance, refractive index)

Photon Cross-Correlation Spectroscopy (PCCS) | Particle Size and Stability from 0.5 nm to 10,000 nm In general, the acquisition of scattered light intensities of particles under thermal motion is deployed for nanoparticle characterisation (principle of dynamic light scattering (DLS)). The method known as Photon Correlation Spectroscopy (PCS) applies auto-correlation of scattered light intensities in order to determine particle size distribution. However, this conventional technology requires extremely diluted samples in order to deliver meaningful results. NANOPHOX brings Photon Cross-correlation Spectroscopy (PCCS) to life, which allows for nanoparticle size analysis in turbid suspensions and emulsions ranging from 0.5 nm to 10,000 nm at up to a hundred times higher solid contents. The outstanding technological feature of NANOPHOX is the acquisition of two separately induced scattered light intensities which then are cross-correlated. This allows for robust measurement even at higher sample concentrations. In addition to size, the aggregation or sedimentation behaviour of nanosuspensions (i.e. stability) may be analysed. Typical applications comprise e.g., polymer emulsions, colloidal silica, inks and research on nanodispersions in general.

Master the complexities of market access to ensure compliance for your product portfolio.

Master the intricacies of cosmetic requirements to guarantee compliance with their diverse requirements.

Flexible Protection for High-Risk Piping Systems APS Navy Roll Shields provide durable, wraparound protection against hazardous spray-outs and leaks, making them ideal for demanding environments where safety and adaptability are critical. Designed for quick, on-site customization, they deliver reliable coverage for a wide range of piping applications. - Wrap, Cut & Install On-Site – Flexible roll format allows custom fit for flanges, valves, and mechanical joints - Multi-Layer Protection – Aluminumized fiberglass core with flame-retardant silicone outer layer resists heat, abrasion, and puncture - Built for Tough Conditions – Withstands temperatures up to 500°F and meets ASTM spray shield standards