Projects per year
Description
This dataset represents parameters detected and computed during tableting process with compaction simulator (STYL’One Nano; Medelpharm, Beynost, France) and measured properties (thickness, diameter, weight, and hardness) of respective tablets with stand-alone tablet tester (ST50 WTDH; SOTAX AG, Aesch, Switzerland). The dataset compares tablet physico-chemical properties using 6 formulations where ratio of microcrystalline cellulose (MCC; 1.586 g/cm3) and calcium phosphate dibasic anhydrous (CaHPO4; 2.890 g/cm3) is changed.
| Date made available | 24 Nov 2025 |
|---|---|
| Publisher | Riga Stradins University |
| Date of data production | Aug 2023 - Nov 2023 |
| Geographical coverage | Riga Stradins University, Riga, Latvia |
Field of Science
- 1.4 Chemical sciences
- 2.5 Materials engineering
- 3.3 Health sciences
- 2.4 Chemical engineering
- 4.4 Agricultural biotechnology
- 2.9 Industrial biotechnology
Keywords
- Chemistry
- Medicine, Health and Life Sciences
- tableting
- compression
- compaction
- punch peak force
- compression thickness
- dwell time
- compression time
- relaxation time
- upper punch
- lower punch
- ejection force
- ejection time
- rearrangement energy
- plastic energy
- compression energy
- elastic energy
- flow energy
- ejection energy
- tablet weight
- tablet thickness
- elastic recovery
- ejected tablet diameter
- solid fraction
- hardness
- tensile strength
- MCC
- microcrystalline cellulose
- CaHPO4
- calcium phosphate dibasic anhydrous
Projects
- 1 Active
-
Direct compression of highly used excipients in pharmaceutical tablet manufacturing: calcium phosphate dibasic anhydrous and microcrystalline cellulose
Kukuls, K. (Participant) & Mohylyuk, V. (Project leader)
1/08/23 → 31/07/27
Project: Projects outside RSU