White Paper 1:   Lenterra’s Drag Force Flow (DFF) Sensor: Description of the Technology

White Paper 2:   DFF Sensor Elementary Force Measurements: Fluids, Bulk Powder and Single Granules

White Paper 3:   Process Monitoring with DFF Sensor. Raw Data, Force Pulse Magnitude (FPM), Mean FPM (MFPM), FPM Distribution Width (WFPM)

White Paper 4:   Single Granule Impact on the Tip of DFF Sensor Probe: Experiment

White Paper 5:   Force Exerted by Powder Flow on the DFF Probe: Experiment

White Paper 6:   DFF Sensor as a PAT Tool: Identification of Under-Processed Powders

White Paper 7:   DFF Sensor Differentiates Powders of Different Particle Size

White Paper 8:   High Shear Wet Granulation: DFF Sensor vs. Focused Beam Reflectance Measurement (FBRM)

White Paper 9:  HSWG-Brivanib Alaninate: DFF Sensor Identifies Optimal Formulation, Determines Granulation End-Point, and Enables Scale Up

White Paper 10:  High Shear Wet Granulation: DFF Sensor vs. Granulator Shaft Amperage

White Paper 11:  DFF Sensor as a PAT Tool in High Shear Wet Granulation: Placebo Batch Reproducibility Study

White Paper 12:  In-Line DFF Sensor vs. At-Line FT4 Powder Rheometer® as a PAT tool for High Shear Wet Granulation

White Paper 13:  Process fingerprint: combination of mean force pulse magnitude (MFPM) and powder consistency factor (PCF)

White Paper 14:  DFF fingerprint of high shear wet granulation with respect to granule densification and powder consistency

White Paper 15:  Characterizing dry powders: common sugars

White Paper 16:  Comparative Study of Sugar Powder Consistency using an FT4 Powder Rheometer and DFF Sensor

White Paper 17:  Real-Time Analysis of Powder Consistency in a Carbon Film Processing Line: I. DFF Sensor under Conveyor Belt

White Paper 18:  Real-time Analysis of Powder Consistency in a Carbon Film Processing Line: II. DFF Sensor Immersed into Powder on Conveyor Belt