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Related Experiment Videos

Physical processes of tableting

E N Hiestand, J E Wells, C B Peot

    Journal of Pharmaceutical Sciences
    |April 1, 1977
    PubMed
    Summary
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    Shear deformation during decompression can cause material fracture. A new test measures brittle fracture propensity, indicating a material

    Area of Science:

    • Materials Science
    • Mechanical Engineering
    • Solid Mechanics

    Background:

    • Nonisostatic compression of large compacts can induce shear deformation.
    • This deformation can lead to material fracture under certain conditions.

    Purpose of the Study:

    • To investigate the causes of shear deformation during decompression.
    • To understand the factors influencing fracture in compressed materials.
    • To develop a method for quantifying brittle fracture propensity.

    Main Methods:

    • Analysis of shear deformation during decompression of nonisostatically compressed compacts.
    • Observation of material fracture mechanisms.
    • Development and application of a test to measure brittle fracture propensity.

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    Main Results:

    • Shear deformation occurs during decompression.
    • Fracture can happen during decompression or upon ejection due to stress concentrations.
    • The ability to relieve stress via plastic deformation influences fracture behavior.

    Conclusions:

    • Material failure during decompression is linked to shear stress development.
    • Brittle fracture propensity is a key property determining material's response to stress.
    • The devised test offers a way to measure this critical material property.