Karan Sutaria
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Karankumar Sutaria of Stockbridge, GA, made the Dean's List for the Spring 2017 semester at the Georgia Institute of Technology. This designation is awarded to undergraduate students who have a 3.0...
June, 22 2017 - Verified by Georgia Institute of TechnologyKarankumar Sutaria of Stockbridge, GA, has earned a Bachelor of Science in Aerospace Engineering from the Georgia Institute of Technology in Atlanta. Sutaria was among approximately 3,800 undergra...
June, 14 2017 - Verified by Georgia Institute of TechnologyKarankumar Sutaria of Stockbridge, GA, made the Dean's List for the Fall 2016 semester at the Georgia Institute of Technology. This designation is awarded to undergraduate students who have a 3.0 o...
February, 06 2017 - Verified by Georgia Institute of TechnologyKarankumar Sutaria of Stockbridge, GA earned the distinction of Faculty Honors for Spring 2016 at the Georgia Institute of Technology. This designation is awarded to undergraduate students who have...
June, 24 2016 - Verified by Georgia Institute of TechnologyKarankumar Sutaria of Stockbridge, GA (30281) made the Dean's List for the Fall 2015 semester at the Georgia Institute of Technology. This designation is awarded to undergraduate students who have ...
January, 29 2016 - Verified by Georgia Institute of TechnologyKarankumar Sutaria of Stockbridge, GA earned the distinction of Faculty Honors for Spring 2015 at the Georgia Institute of Technology. This designation is awarded to undergraduate students who have...
June, 17 2015 - Verified by Georgia Institute of TechnologyDesign Unmanned Aircraft - Orion.
Developed a beta correction factor for a spar/stringer stiffened skin panel configuration using Abaqus/Xfem to ease the process of analyzing complex geometry using in-house tools.
Evaluated the free edge effect on beta for a stiffened panel.
Analyzed the stringer failure effect per bay on re-load distribution to adjust stringers and on their Fatigue life.
Developed an optimization method for stringers geometry using FEA tools to determine the equivalent skin width or the stiffener buckling analysis to reduce weight and cost.
Established a method of calculating crippling stress of formed and extruded stringers for different materials, which reduced crippling stress testing and resulted in its optimum configuration.
Analyzed the test results of lap splice test specimens using fatigue life to cognize the effects of improper installation of locking ring on the fatigue life of the blind fastener joint.
Assisted student on how to use machines to complete their projects.
Guided students on selections of manufacturing method they can use to make their prototypes.
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