SCHATZ GEOMETRY SHAKER MIXER MECHANISM – A Review

Authors

  • Mr. Yogesh Premraj Kale Department of Mechanical Engineering, Pankaj Laddhad Institute of Technology & Management Studies, Buldana (MH), India
  • Dr. Fahim Rahim Sheikh Department of Mechanical Engineering, Pankaj Laddhad Institute of Technology & Management Studies, Buldana (MH), India

Keywords:

Traditional mixer, Schatz linking mechanism, restrictions, uses.

Abstract

Extremely challenging mixing tasks include combining fluids with heavy density metal powder or other fluids with jelly. The traditional approach involves using a unidirectional stirring machine to combine the fluid with the metal powder. The traditional mixer's shortcomings are explored in this article. A homogenous mixing of powdered substances with various specific weights and particle sizes is achieved using the Schatz geometry shaker-mixer, which is also covered in this work. Each component is blended in its own sealed container. The Schatz geometric theory dictates a three-dimensional motion for the mixing container, including rotation, translation, and inversion. In a short amount of time, the results meet all standards.

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Published

2025-12-24

How to Cite

[1]
Mr. Yogesh Premraj Kale and Dr. Fahim Rahim Sheikh, “SCHATZ GEOMETRY SHAKER MIXER MECHANISM – A Review”, IEJRD - International Multidisciplinary Journal, vol. 10, no. 2, p. 7, Dec. 2025.

Issue

Vol. 10 No. 2 (2025): Volume 10 Issue 2

Section

Articles

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