The FT4 Powder Rheometer® is a universal powder tester designed for measuring the properties of powder flow, and the behavior of powder.
The FT4 is a unique powder characterization, but also used as a tool for solving powder processing problems. It is different from other powder testers in numerous ways but when measuring industrial value, three features are very important:
Application of multi-faceted powder characterization to evaluate dynamic flow, shear, and bulk properties to develop a complete understanding of how a powder behaves.
The ability to mimic powder processing settings, by testing samples in a consolidated, reasonably aerated, stressed, or fluidized state
Unmatched sensitivity allows the differentiation of powders that other testers categorize as identical.
The FT4 Powder Rheometer uses an exclusive technology for quantifying the resistance of the powder to flow, as the powder is in motion.
Along with the unique dynamic procedure, the FT4 also features a shear cell to measure the shear strength of the powder, and a wall friction kit to measure how the powder shears against the wall of the process equipment (as per the ASTM standard D7891). It also includes accessories for measuring bulk properties, for example, compressibility, density, and permeability.
The FT4 is truly a universal powder tester, as it offers a range of measurement capabilities. It is undoubtedly the world’s most versatile instrument for measuring and gaining insight on powder behavior.
Features
Completely automated test programs and data analysis
Range of sample size, 10 ml to 160 ml (besides, a 1 ml Shear Cell can be chosen for limited sample size)
Conditioning mode offers unmatched repeatability
Shear Cell Testing using the FT4 Powder Rheometer Play
The equipment is the most professionally designed and user friendly equipment we’ve used.
Process Diversity
The nature of all processing settings is such that a range of conditions is inevitable and the powder being processed will be managed under various stress regimes. In order to fully predict the in-process performance of the powder, it is vital to measure and quantify how it reacts to each of these external variables.
External Variable
When and where
Effect
Consolidation
Vibration / Tapping
Direct Pressure (hopper, IBC, keg)
Increase in particle pressure, contact area and number of contact points
Reduction in air content between particles
Aeration
Gravity discharge
Blending
Pneumatic conveying
Aerosolisation
Reduction in particle pressure contact area and number of contact points
Increase in air content between particles (increased porosity)
Flow (shear) rate
Within powder
Powder against equipment wall
Mixing
Mostly non-Newtonian
Greater resistance to flow at lower flow rates
Moisture
Storage
Processing
Intentionally introduced (granulation)
Increase particle adhesion
Reduced particle stiffness - more compliant but increased contact surface area
Increase electrical conductivity
Electrostatic charge
Discharge from hopper
Pneumatic conveying
High shear mixing
Increase bond strength between particles
Adhesion of powder to equipment
Storage time
Raw materials / Intermediates
Consolidation
Caking
Permanently affecting downstream performance?
Proven Applications
The FT4 can be used in all powder processing industries, such as pharmaceuticals, food, fine chemicals, cosmetics, metals, ceramics, toners, plastics, cements, powder coatings, and additive manufacturing (3D printing). Applications include:
Filling
Humidity effects
Tablet compression
Hopper flow
Feeding
Segregation
Attrition
Caking
Conveying
Milling
Dry powder inhalers
Electrostatic charge
Mixing/blending
Wall friction and adhesion
Compact hardness and payoff
Hopper design
Wet granulation end point and scale up
Flow additive selection and optimization