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    Application of Compaction Equations for Powdered Pharmaceutical Materials

    New search for: Eckert Maroš
    New search for: Peciar Peter
    New search for: Krok Alexander
    New search for: Fekete Roman

    The paper is focused on an analysis of the most frequently used compaction equations for powdered materials such as Heckel equation, Kawakita equation and Cooper-Eaton equation. Compacting powdered materials is accompanied by various mechanisms of densification dependent on the properties of the compressed material, which makes the equation more satisfactory for a certain group of materials and for another groups less so, or makes the equation completely unsuitable. To determine the suitability of the equation experimental measurements have to be implemented on an instrumented laboratory press. Then these obtained data are approximated by the specific compaction equation and use the regression analysis to determine the parameters describing the required material or physical properties of the compressed material.

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    Application of Compaction Equations for Powdered Pharmaceutical Materials

    New search for: Eckert Maroš
    New search for: Peciar Peter
    New search for: Krok Alexander
    New search for: Fekete Roman

    The paper is focused on an analysis of the most frequently used compaction equations for powdered materials such as Heckel equation, Kawakita equation and Cooper-Eaton equation. Compacting powdered materials is accompanied by various mechanisms of densification dependent on the properties of the compressed material, which makes the equation more satisfactory for a certain group of materials and for another groups less so, or makes the equation completely unsuitable. To determine the suitability of the equation experimental measurements have to be implemented on an instrumented laboratory press. Then these obtained data are approximated by the specific compaction equation and use the regression analysis to determine the parameters describing the required material or physical properties of the compressed material.

    Access

    Download

    Application of Compaction Equations for Powdered Pharmaceutical Materials

    New search for: Eckert Maroš
    New search for: Peciar Peter
    New search for: Krok Alexander
    New search for: Fekete Roman

    The paper is focused on an analysis of the most frequently used compaction equations for powdered materials such as Heckel equation, Kawakita equation and Cooper-Eaton equation. Compacting powdered materials is accompanied by various mechanisms of densification dependent on the properties of the compressed material, which makes the equation more satisfactory for a certain group of materials and for another groups less so, or makes the equation completely unsuitable. To determine the suitability of the equation experimental measurements have to be implemented on an instrumented laboratory press. Then these obtained data are approximated by the specific compaction equation and use the regression analysis to determine the parameters describing the required material or physical properties of the compressed material.

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    Download

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    Download

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    Document information
    Title:

    Application of Compaction Equations for Powdered Pharmaceutical Materials

    Contributors:

    Eckert Maroš (author) / Peciar Peter (author) / Krok Alexander (author) / Fekete Roman (author)

    Published in:

    Scientific Proceedings. Faculty of Mechanical Engineering, Vol 23, Iss 1, Pp 6-11 (2015)

    Publication date:

    2015

    ISSN:

    1338-5011

    DOI:

    https://doi.org/10.1515/stu-2015-0002

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    powder compaction , heckel equation , kawakita equation , cooper-eaton equation , Mechanical engineering and machinery , TJ1-1570

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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