Intellectual Property India Publishes Patent Application for 'An Adaptive Mechanical Assembly For Vibration Reduction And Structural Stability Enhancement' Filed by Adiraju Radha Krishna; Fathe Mohammad; Dr. Prudhvi Krishna Amburi; S. V. Durga Prasad; Bhukya Saida; Kapil Dev Dovari; Katta Manasa; Dharavathu Ramudu; Banothu Vinod; and Mandava Institute Of Engineering & Technology

MUMBAI, India, Feb. 27 -- Intellectual Property India has published a patent application (202641019009 A) filed by Adiraju Radha Krishna; Fathe Mohammad; Dr. Prudhvi Krishna Amburi; S. V. Durga Prasad; Bhukya Saida; Kapil Dev Dovari; Katta Manasa; Dharavathu Ramudu; Banothu Vinod; and Mandava Institute Of Engineering & Technology, Jaggaiahpet, Andhra Pradesh, on Feb. 19, for 'an adaptive mechanical assembly for vibration reduction and structural stability enhancement.'

Inventor(s) include Adiraju Radha Krishna; Fathe Mohammad; Dr. Prudhvi Krishna Amburi; S. V. Durga Prasad; Bhukya Saida; Kapil Dev Dovari; Katta Manasa; Dharavathu Ramudu; and Banothu Vinod.

The application for the patent was published on Feb. 27, under issue no. 09/2026.

According to the abstract released by the Intellectual Property India: "The present invention relates to an adaptive mechanical assembly for vibration reduction and structural stability enhancement in machinery subjected to dynamic loading conditions. The assembly comprises a structural housing, a vibration input interface, a base mounting interface, and an internally disposed adaptive damping module. The damping module includes variable stiffness elements and energy-dissipating members configured to automatically adjust resistance characteristics in response to varying vibration amplitude and frequency. In certain embodiments, the assembly incorporates viscoelastic damping components and fluid-assisted chambers with calibrated flow passages to provide proportional energy dissipation. The invention operates autonomously through mechanical interaction without requiring electronic sensors, controllers, or external power sources. By suppressing excessive vibration and resonance, the assembly reduces mechanical fatigue, misalignment, and wear, thereby extending equipment lifespan and improving operational precision. The invention is suitable for heavy machinery, automotive systems, rotating equipment, and precision industrial applications requiring enhanced structural stability and vibration control."

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