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CLINTON WILSON BARNABAS V
Address
Attiguppe, Vijayanagar
Bangalore 560040
Phone +91-900*******
E-mail adcl4f@r.postjobfree.com
To pursue a challenging career in the field with constant learning and contribution to research and development, which provides challenging environment and allows me to grow professionally and as an individual
Work Experience
Technical Assistant in AKSHAYA MOTORS (Mercedes Benz) for a duration of 8 months Education
2018-08 -
Current
Master of Technology: Engineering Design
Karunya Institute of Technology And Sciences - Coimbatore
Current GPA: 8.38
2013-08 -
2017-01
Bachelor of Technology: Mechanical Engineering
Don Bosco Institute of Technology - Bangalore
Graduated with 58%
2011-
2013
12th Council for the Indian School Certificate
Examinations
(CISCE)
Bishop Cotton Boys School, Bangalore
Percentage: 72.4
1999–
2011
10th Indian Certificate of Secondary Education (ICSE) Bishop Cotton Boys School, Bangalore
Percentage: 80.71
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Skills
Software:
Certification completed in Solid Works under Dassault Systèmes
Basics of Pro-E, Solid Edge, Ansys, Adams, Python and Matlab Interpersonal:
Good team work
Learning and teaching new skills
Understanding people and associating with them by positive attitude Projects
Completed:
A COMPACT, THREE-WHEELED ROVER FOR EXPLORATION AND SAMPLE RETURN
A major project with ISRO (Bangalore) to design and develop a three wheel rover for the exploration of celestial bodies. Incorporated with innovative mechanisms to reduce the launch volume, providing good climbing capability on slope and obstacles. Mathematical models were formulated to evaluate the kinematics and dynamics of the rover. Virtual prototype was developed using ADAMS multi body dynamics software. The mobility of the rover on various terrains was simulated and performance parameters were estimated. A Prototype was fabricated for the three wheel rover
STUDY THE EFFECT OF VIBRATION IN ROTATING MACHINERY FOR DIFFERENT SHAFT MATERIALS FOR FLUID FILLED BEARINGS:
Study the effect of parallel shaft misalignment by vibration monitoring was conducted. The effect of quantity of misalignment and the shaft rotation speed was studied for different shaft materials of brass, aluminium, copper, stainless steel and iron. Fluid filled bearings were employed to measure the misalignment for different speeds. Measurement of these forces gives valuable input in accessing the reliability of such systems. This shows the vibration forces generated due to a selector unbalance and RPM. The vibration force due to unbalance varies with respect to the speed of the rotor and the unbalance quantity. A graph is plotted showing the displacement for the corresponding to speed for each of the materials
DIMENSIONAL SYNTHESIS OF FILLETED RECTANGULAR PATH GENERATING MECHANISM:
Optimal synthesis of a rectangular path generating mechanism, to move the tool on a prescribed filleted rectangular path was carried out. Optimal dimensional synthesis of these mechanisms is done using hybrid optimization method combining Genetic algorithm and pattern search in MATLAB optimization tools. A precision point along the desired profile is generated using Harmonic Spacing. X and Y coordinates of the cam profile are obtained from synthesis of the mechanism. Determinations of position parameters of links are carried out. Animation of the mechanism is carried out to verify the motion of the tool point on the specified path. Graphs are plotted between kinematic parameters and crank angle
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Ongoing:
DIMENSIONAL SYNTHESIS AND KINEMATIC ANALYSIS OF ONE DOF ADJUSTABLE CAM LINKAGE MECHANISM TO GENERATE FILLETED RECTANGULAR PATH:
Kinematic analysis of rectangular path generating mechanism, in terms of position, velocity, acceleration and pressure angle for different dimension of the required path and to to fabricate a prototype of the Dimensional Synthesis of Adjustable Mechanism to generate Square Path Verified by Reconstructed Adjustable parameter Curve Method mechanism.
Accomplishments
Publication:
“Kinematic Analysis and Dimensional Synthesis of Filleted-Rhombus Path Generating Adjustable Four-bar Mechanism” – published in Springer Journal.
“Dimensional Synthesis of Adjustable Mechanism to generate Square Path Verified by Reconstructed Adjustable parameter Curve Method’ - in process to be published in The American Institute of Physics (AIP) Journal.
Internship:
Undertook an Internship for 1 month in Bharat Earth Movers Limited (BEML)
Undertook an Internship for 2 weeks in Hindustan Machine Tools Limited (HMT) Workshop:
Attended Robotics Workshop conducted by IIT, Mumbai
3D printing technology and Art of project proposal and technical article/journal writing
Extracurricular:
Been a part of Scouts as the troupe leader for scouts
Participated in National Level Karate Tournaments
Industrial visits
- Central Manufacturing Technology Institute (CMTI)
- Tamil Nadu Newsprint and Papers Limited (TNPL)
Area of Interest
Energy conservation methods
Kinematic Analysis
Designing equipments for Space Explorations
Innovations of mechanisms for simplification of everyday tasks
Automobile Innovations