Abstract

ADVANCES IN BROOKFIELD VISCOMETER - TYPE VISCOMETER: A COMPREHENSIEVE REVIEW

Kasa Aswini*, Lella Janaki, Kasu Lavanya, Lankpalli Samatha

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Abstract

The Brookfield viscometer has become one of the most trusted and widely used instruments for measuring viscosity in laboratories and industries worldwide. Its popularity comes from being simple to use and giving accurate results and adaptability for both Newtonian and non-Newtonian fluids. This review article provides a detailed understanding of how the Brookfield viscometer works, its technological evolution, calibration methods, and the wide range of applications it supports. Based on the principle of rotational resistance, the viscometer measures the torque needed to rotate a spindle in a fluid — a value directly related to viscosity. Over time, this instrument has evolved from simple mechanical dials to advanced digital systems with automatic temperature control, software connectivity, and data-recording features. These improvements have made viscosity testing faster, more accurate, and easier to interpret. Despite its strengths, the Brookfield viscometer has certain limitations, especially when measuring complex fluids that show time-dependent or elastic properties. Still, with proper calibration and operator training, it remains highly reliable. The review also compares Brookfield viscometers with other viscometric techniques, showing that while they may not capture the full rheological profile of a material, they offer a perfect balance between cost, convenience, and performance. Overall, this article highlights how the Brookfield viscometer continues to bridge traditional viscosity measurement with modern rheological needs, maintaining its role as a fundamental tool for research, product development, and quality assurance across multiple scientific and industrial fields.

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