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Chaitra M Mahesha

from Greenville, SC
Age ~46
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Related to:
Adrian TrifDeepak Mahesha, 53
Connected to:
Deepthi Mahesh, 31Priya Mahesh, 49Raj Mahesh, 51Teresa S Mahesh, 63Amit Maheshwary, 44Anisha Maheshwari, 30Arpita Maheshwari, 35Chetan Maheshwari, 34Kanika Maheshwari, 45Kavita Maheshwari, 61

Chaitra Mahesha Phones & Addresses

  • 8 Brookford Ct, Greenville, SC 29615
  • 325 Midland Pkwy, Summerville, SC 29485 (843) 821-2527
  • 325 Marymeade Dr, Summerville, SC 29483 (843) 821-2527
  • Alexandria, VA
  • 1108 Tiger Blvd, Clemson, SC 29631 (864) 653-3747
  • 220 Calhoun St, Clemson, SC 29631 (864) 653-3747
  • 307 Crawford Ct, Clemson, SC 29631 (864) 653-3747
  • Phoenix, AZ
  • North Chesterfield, VA
  • 8 Brookford Ct, Greenville, SC 29615 (843) 821-2527

Work

Company: Voith paper fabrics and rolls - Summerville, SC May 2008 Position: Polymer scientist- materials platform

Education

School / High School: Clemson University- Clemson, SC Dec 2007 Specialities: Ph.D. in Material Science and Engineering

Skills

Materials Science • Polymers • Product Development • Polymer Science • Nanomaterials • Polymer Characterization

Industries

Plastics

Resumes

Resumes

Chaitra Mahesha Photo 1

Materials Research Engineer

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Location:
Greenville, SC
Industry:
Plastics
Work:
Michelin
Materials Research Engineer
Voith Gmbh May 2008 - Jun 2011
Polymer Scientist
Clemson University Jan 2004 - Dec 2007
Research Assistant
Indian Institute of Technology, Delhi Dec 2002 - Jul 2003
Project Associate
Sabic May 2002 - Sep 2002
Trainee
Education:
Clemson University 2003 - 2007
Doctorates, Doctor of Philosophy, Materials Science, Engineering Indian Institute of Technology, Delhi 2000 - 2002
Masters, Master of Technology University of Mysore 1995 - 1999
Bachelor of Engineering, Bachelors
Skills:
Materials Science
Polymers
Product Development
Polymer Science
Nanomaterials
Polymer Characterization
Chaitra Mahesha Photo 2

Chaitra Mahesha Greenville, SC

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Work:
Voith Paper Fabrics and Rolls
Summerville, SC
May 2008 to Jun 2011
Polymer Scientist- Materials Platform
Clemson University
Clemson, SC
Jan 2004 to Dec 2007
Research Assistant
Foundation for Innovation & Technology Transfer, IIT Delhi
New Delhi, Delhi
Dec 2002 to Jul 2003
Project Associate
GE Plastics, John F. Welch Technology Centre
Bangalore, Karnataka
May 2001 to Sep 2002
Trainee
Institut fr Kunststoffverarbeitung, RWTH
Aachen
May 2001 to Feb 2002
Research Assistant
Central Food Technology and Research Institute

Jun 1998 to Jul 1999
Research Intern
Education:
Clemson University
Clemson, SC
Dec 2007
Ph.D. in Material Science and Engineering
Indian Institute of Technology
Apr 2002
M.Tech. in Polymer Science and Technology
S.J. College of Engineering, Mysore University, Mysore
Aug 1999
B. E. in Polymer Science and Technology

Publications

Us Patents

Paper Machine Clothing Having Monofilaments With Lower Coefficient Of Friction

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US Patent:
20120214374, Aug 23, 2012
Filed:
Feb 21, 2011
Appl. No.:
13/031432
Inventors:
Chaitra Mahesha - Summerville SC, US
Juergen Abraham - Nattheim, DE
Brian Good - Summerville SC, US
International Classification:
D03D 15/00
C08K 5/27
C08L 67/02
D01D 5/12
D02G 3/02
US Classification:
442189, 442199, 2642108, 428401, 524538, 524190
Abstract:
A PMC fabric yarn, for use in a PMC fabric, has a composition which is a mixture of between 75% to 99% PET, 1% to 20% polymeric siloxane, and with a remainder of the composition being between 0.1% to 5% compatibilizer.

Methods And Apparatuses For Assembling Tire Components

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US Patent:
20190001751, Jan 3, 2019
Filed:
Dec 20, 2016
Appl. No.:
16/066850
Inventors:
- Clermont-Ferrand, FR
RONALD CRESS - CLERMONT-FERRAND, FR
CHAITRA MAHESHA - GREENVILLE SC, US
International Classification:
B60C 11/00
B60C 9/00
Abstract:
The invention provides for a heavy truck tire () having a sub-casing, a belt package () and a rubber tread (), the tread extending axially form a first tread edge (N) to a second tread edge (N′) over a rolling tread width (RTW), the tread comprising a shoulder zone () adjacent to each of said first and second edges and a center zone () separating the two shoulder zones, each shoulder zone comprising a radially lower shoulder layer () and a radially upper shoulder layer (), the upper shoulder layer being intended to come into contact with the ground and the lower shoulder layer being interposed between the belt package and the upper shoulder layer, the upper shoulder layer consisting of an upper shoulder rubber compound, the lower shoulder layer consisting of a lower shoulder rubber compound being different from the upper shoulder rubber compound, wherein: —the upper shoulder layer extends a distance LI from a tread edge (N, N′) axially inward, the distance LI being greater than 15% and less than 40% of the rolling tread width (RTW); —the upper shoulder layer has a thickness (T) of between 70% and 130% of the tread depth over at least 80% of the distance LI; —the lower shoulder layer extends a distance L from a tread edge (N, N′) axially inward, the distance being greater than 15% of the rolling tread width (RTW); —the lower shoulder layer has a thickness of at least 4 mm over the portion of the shoulder zone which covers the belt package; —the upper shoulder rubber compound has a G*50 of at least 1.3 Mpa and a max tan () of at least 0.12; —the lower shoulder rubber compound has a max tan () not greater than the max tan () of a center rubber compound in the center zone being intended to come into contact with the ground; and—the center rubber compound has a max tan () of at most 0.09.
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Chaitra M Mahesha from Greenville, SC, age ~46 Get Report