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Tibor Casian, Brigitta Nagy, Cristiana Lazurca, Victor Marcu, Erzsébet Orsolya Tőkés, Éva Katalin Kelemen, Katalin Zöldi, Radu Oprean, Zsombor Kristóf Nagy, Ioan Tomuta & Béla Kovács. (2023) Development of a PAT platform for the prediction of granule tableting properties. International Journal of Pharmaceutics 648, pages 123610.
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Józef Horabik, Maciej Bańda, Grzegorz Józefaciuk, Agnieszka Adamczuk, Cezary Polakowski, Mateusz Stasiak, Piotr Parafiniuk, Joanna Wiącek, Rafał Kobyłka & Marek Molenda. (2021) Breakage Strength of Wood Sawdust Pellets: Measurements and Modelling. Materials 14:12, pages 3273.
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Nizar Al-Zoubi, Adel Ardakani, Faten Odeh, Nina Sakhnini, Ioannis Partheniadis & Ioannis Nikolakakis. (2020) Mechanical properties of starch esters at particle and compact level - Comparisons and exploration of the applicability of Hiestand's equation to predict tablet strength. European Journal of Pharmaceutical Sciences 147, pages 105292.
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Józef Horabik, Joanna Wiącek, Piotr Parafiniuk, Mateusz Stasiak, Maciej Bańda, Rafał Kobyłka & Marek Molenda. (2020) Discrete Element Method Modelling of the Diametral Compression of Starch Agglomerates. Materials 13:4, pages 932.
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Samaneh Pazesh, Ann-Sofie Persson & Göran Alderborn. (2019) Atypical compaction behaviour of disordered lactose explained by a shift in type of compact fracture pattern. International Journal of Pharmaceutics: X 1, pages 100037.
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Shengyun Dai, Bing Xu, Zhiqiang Zhang, Jiaqi Yu, Fen Wang, Xinyuan Shi & Yanjiang Qiao. (2019) A compression behavior classification system of pharmaceutical powders for accelerating direct compression tablet formulation design. International Journal of Pharmaceutics 572, pages 118742.
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Samaneh Pazesh, Ann-Sofie Persson & Göran Alderborn. (2019) WITHDRAWN: Atypical compaction behaviour of disordered lactose explained by a shift in type of compact fracture pattern. International Journal of Pharmaceutics, pages 118763.
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Ann-Sofie Persson & Göran Alderborn. (2018) A hybrid approach to predict the relationship between tablet tensile strength and compaction pressure using analytical powder compression. European Journal of Pharmaceutics and Biopharmaceutics 125, pages 28-37.
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B. Janković, M. Škarabot, Z. Lavrič, I. Ilić, I. Muševič, S. Srčič & O. Planinšek. (2013) Consolidation trend design based on Young's modulus of clarithromycin single crystals. International Journal of Pharmaceutics 454:1, pages 324-332.
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Rahul Roopwani, Zhenqi Shi & Ira S. Buckner. (2013) Application of Principal Component Analysis (PCA) to Evaluating the Deformation Behaviors of Pharmaceutical Powders. Journal of Pharmaceutical Innovation 8:2, pages 121-130.
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Josefina Nordström, Ingvild Klevan & Göran Alderborn. (2012) A protocol for the classification of powder compression characteristics. European Journal of Pharmaceutics and Biopharmaceutics 80:1, pages 209-216.
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Steffen Brinckmann, Guofeng Gao & Thomas Siegmund. (2009) A combined experimental–numerical study of the compaction behavior of NaCl. Powder Technology 194:3, pages 197-206.
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J. Nordström, K. Welch, G. Frenning & G. Alderborn. (2008) On the role of granule yield strength for the compactibility of granular solids. Journal of Pharmaceutical Sciences 97:11, pages 4807-4814.
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Jørn M. Sonnergaard. (2006) Quantification of the compactibility of pharmaceutical powders. European Journal of Pharmaceutics and Biopharmaceutics 63:3, pages 270-277.
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Frauke Fichtner, Åke Rasmuson & Göran Alderborn. (2005) Particle size distribution and evolution in tablet structure during and after compaction. International Journal of Pharmaceutics 292:1-2, pages 211-225.
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