机译:辊压实中建模带状和颗粒性质的原材料属性的重要性:辊隙和NIR光谱坡度作为过程关键控制参数的多元分析
Department of Industrial and Physical Pharmacy School of Pharmacy and Pharmaceutical Sciences Purdue University 575 Stadium Mall Drive West Lafayette IN 47907 USA;
Department of Industrial and Physical Pharmacy School of Pharmacy and Pharmaceutical Sciences Purdue University 575 Stadium Mall Drive West Lafayette IN 47907 USA;
Department of Industrial and Physical Pharmacy School of Pharmacy and Pharmaceutical Sciences Purdue University 575 Stadium Mall Drive West Lafayette IN 47907 USA;
Department of Industrial and Physical Pharmacy School of Pharmacy and Pharmaceutical Sciences Purdue University 575 Stadium Mall Drive West Lafayette IN 47907 USA;
Department of Industrial and Physical Pharmacy School of Pharmacy and Pharmaceutical Sciences Purdue University 575 Stadium Mall Drive West Lafayette IN 47907 USA;
Department of Industrial and Physical Pharmacy School of Pharmacy and Pharmaceutical Sciences Purdue University 575 Stadium Mall Drive West Lafayette IN 47907 USA;
Roller compaction; Near-infrared spectroscopy; Material characterization; Microcrystalline cellulose; Multivariate data analysis; Process analytical technology;
机译:多元分析在建模原材料特性和操作参数对辊压成型中制备的颗粒和条带特性的影响中的效用。
机译:API浓度对辊压实过程的影响:使用多变量数据分析对后压实的带,颗粒和片剂性质进行建模和预测
机译:使用辊宽度作为比例因子并基于激光确定的带孔率作为关键材料属性进行辊压实放大
机译:滚子压实过程参数对关键产品属性的影响研究
机译:使用集总参数建模智能压实测量值对轧辊参数的影响
机译:使用材料库了解辊压实中原材料特性对带材质量的影响
机译:使用实验设计对辊压缩过程中临界工艺参数对粒状和片剂物理性质影响的研究