颗粒大小和压缩力对压实行为及可压缩性衍生数学参数的影响。

Effect of particle size and compression force on compaction behavior and derived mathematical parameters of compressibility.

作者信息

Patel Sarsvatkumar, Kaushal Aditya Mohan, Bansal Arvind Kumar

机构信息

Department of Pharmaceutical Technology (Formulations), National Institute of Pharmaceutical Education and Research (NIPER), S.A.S. Nagar, Punjab, 160 062, India.

出版信息

Pharm Res. 2007 Jan;24(1):111-24. doi: 10.1007/s11095-006-9129-8. Epub 2006 Oct 25.

DOI:10.1007/s11095-006-9129-8

PMID:17063396

Abstract

PURPOSE

To analyze the influence of inherent densification and deformation properties of paracetamol on the mathematical parameters derived from Heckel, Walker, Kawakita, and Adams equations and to correlate these with single particle nominal fracture strength and bulk compression parameters using confined compression on a fully instrumented rotary tablet press.

MATERIALS AND METHODS

Force-displacement data were captured during in-die compression for four different particle size fractions (150-250, 300-450, 500-650, and 700-1,000 microm) of paracetamol each at compression force of 5.2, 8.6, and 17.3 kN. Nominal single particle fracture strength was obtained by micro tensile testing.

RESULTS

Apparent mean yield pressure (Py) from Heckel analysis was significantly affected by the applied pressure, and was influenced by elastic energy and Young's modulus. The single particle fracture strength correlated to parameters obtained from Heckel, Walker, Kawakita, and Adams equations. Results obtained from bulk compression and single particle measurements were consistent with, and polynomially related to Py, Kawakita (1/b), and Adams parameter (tau0').

CONCLUSIONS

Values of Py, 1/b, and tau0' obtained from Heckel, Kawakita, and Adams equations, respectively, can be interpreted as a measure of single particle nominal fracture strength during confined compression loading. Walker and Adams parameters were less affected, than Heckel and Kawakita parameters, by the applied pressure.

摘要

目的

分析对乙酰氨基酚的固有致密化和变形特性对从赫克尔（Heckel）、沃克（Walker）、川北（Kawakita）和亚当斯（Adams）方程导出的数学参数的影响，并使用配备完整仪器的旋转压片机进行受限压缩，将这些参数与单颗粒标称断裂强度和整体压缩参数相关联。

材料与方法

在压模压缩过程中，采集了对乙酰氨基酚四种不同粒径级分（150 - 250、300 - 450、500 - 650和700 - 1000微米）在5.2、8.6和17.3 kN压缩力下的力 - 位移数据。通过微拉伸试验获得标称单颗粒断裂强度。

结果

赫克尔分析得出的表观平均屈服压力（Py）受施加压力的显著影响，并受弹性能和杨氏模量的影响。单颗粒断裂强度与从赫克尔、沃克、川北和亚当斯方程获得的参数相关。整体压缩和单颗粒测量获得的结果与Py、川北参数（1/b）和亚当斯参数（tau0'）一致，并呈多项式相关。

结论

分别从赫克尔、川北和亚当斯方程获得的Py、1/b和tau0'值可解释为受限压缩加载过程中单颗粒标称断裂强度的度量。与赫克尔和川北参数相比，沃克和亚当斯参数受施加压力的影响较小。

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本文引用的文献

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颗粒大小和压缩力对压实行为及可压缩性衍生数学参数的影响。

Effect of particle size and compression force on compaction behavior and derived mathematical parameters of compressibility.

作者信息

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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