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Council of Vibration Specialists

Student Chapter

Full Name: Council of Vibration Specialists Bengaluru chapter.

Abbreviation: CVS

Faculty Advisor

Name: Dr. V L Jagannatha Guptha

Designation: Professor

Department: Mechanical Engineering

Contact Information: email: jagannathagvl@rvce.edu.in

Goal: To provide a platform for scientists, researchers, engineers, faculty members and students to come together for exchange of vibration knowledge.

Activities: through training programs, seminars, conferences, campus and corporate visits, vibration solution services, recognition of contribution made by the experts in the fields

Sl.No.

Event Type

Date

Topic/Description

Speakers

Attendance

1

Social Event

January 28, 2023

Donating Chairs and Tables for Children Activities

Community Service

Place: Government Lower Primary School, Anekal Taluk, Bangalore

32

2

Workshop

January 24, 2023

 

Structural Dynamics

–Significances and Applications

Department of Mechanical Engineering and

Aerospace Engineering, RVCE

88

3

Seminar

Sept 27,

2022

Random Vibrations

Dr. Amalesh Barai

Professor, Department of Aerospace Engineering Jain University, Bangalore

53

4

Social Event

August 19,

2022

Inauguration event

Dr. C S Manohar, IISc

T M Naidu, Ex Project Director, ADA Presided by: Dr. H S Gambhir, President, CVS

103

 

Inauguration invitation

Dr. Amalesh Barai interacting with students

Rotor Dynamics - Demonstration by Sri Madhusudan Nagaraj, M/s Diagnostic Engineers, Bengaluru

Expert Talk by the speaker Mr. Rajshekhar Uchil

Participants from Dept. of ME and ASE

Donating Chairs and Tables for children activities

Children using chairs & tables

Community service: Government Primary school

Projects carried out.

Project Name

Description

Goals

Outcomes

Prediction of the Remaining Useful Llfe of Rolling Element Bearing Using Machine Leaming

A systematic approach for predicting the remaining useful life of bearings

The goal of the article is to improve the prediction of rolling bearing remaining useful life (RUL) by using a systematic approach that involves data acquisition, PCA-based feature extraction, and an exponential degradation model, validated with benchmark datasets, to enhance condition-based maintenance (CBM) practices.

The outcome of the article is a validated methodology for predicting the remaining useful life (RUL) of rolling bearings, demonstrating improved accuracy and reliability in condition-based maintenance (CBM) through the integration of vibrational signal analysis, PCA-based feature extraction, and an exponential degradation model

Effect of Core Thickness and Core Shapes on Modal Parameters of 3DP PLA Sandwich Structures - An Experimental and Numerical Investigations

In the present study, the modal response parameters of 3D printed PLA sandwich structures with 3 different core heights (6mm, 8mm & 10mm) and 3 different core shapes (honeycomb, auxetic and rectangular) are investigated, both experimentally and numerically.

Extract their modal parameters such as natural frequency, mode shapes and damping factor

The obtained results show that the natural frequency was directly proportional to the core height, while it was inversely proportional to the damping ratio. Moreover, natural frequency (642.55 Hz) as minimum and damping ratio (0.039) as maximum were found at 6 mm of core height, Auxetic Core Shape.

Finite Element Approach to Dynamic analysis of CFRP Tennis Racquet Frame

This study analyzes the vibrational behavior of tennis racket frames made from aluminum and carbon fiber, using FE analysis to evaluate the effect on the coefficient of restitution (CoR).

The goal of the study is to investigate and compare the vibrational behavior of tennis racket frames made from aluminum and carbon fiber to improve performance and reduce discomfort from vibrations.

The isotropic model of tennis racket can exhibit dynamic properties especially in the out of-plane directions, while this can be improved with replacing orthotropic material (CFRP) in design process with greater confidence.