The purpose of this study was to investigate the applicability of terahertz time-domain spectroscopy (THz-TDS) to quantify fragmentation upon tableting.
Material deformation behaviour has a critical impact on tablet formation. Fragmentation is one of the key mechanisms affecting the strength of a final compact, however, quantitative methods for estimating fragmentation are often complex, destructive
Lactose in tablets: Functionality, critical material attributes, applications, modifications and co-processed excipients - ScienceDirect
Non-contact weight measurement of flat-faced pharmaceutical
Cluster analysis of Type B1 cauldron fragmentation, applying Euclidean
Summary of the numerical iteration results for the tested four tablets
PDF) Terahertz Frequency Domain Sensing for Fast Porosity
Table 1 from Detection of porosity of pharmaceutical compacts by
Raman spectroscopy for the analytical quality control of low-dose break-scored tablets - ScienceDirect
Deep MALDI-MS Spatial 'Omics guided by Quantum Cascade Laser Mid-infrared Imaging Microscopy
Jukka RANTANEN, Professor
Non-destructive quantification of fragmentation within tablets after compression from scattering analysis of terahertz transmission measurements - ScienceDirect
Rice OsPLATZ3 controls ROS homeostasis by inhibiting ROS-Scavenging Activity during Tapetum Degeneration
Table 1 from Detection of porosity of pharmaceutical compacts by
Investigation of Quantitative X-ray Microscopy for Assessment of