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Sudha C Jebadurai

from Poland, OH
Age ~48
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Also known as:
Sudha Christy Jebadurai, Sudha Rabindra
Phone and address:
7537 Cobblers Run, Youngstown, OH 44514
(330) 707-1029
Related to:
Ashlin RabindraGeorge Rabindra, 51Basanth Rabindra, 51
Connected to:
Deepak Jebar, 45Paul R Jebavy, 68Ben R Jebb, 40David L Jebb, 77Joseph JebbiaJeanne E Jebousek, 79Bassam M Jebril, 41Patricia A Jecha, 71Brian L Jeck, 69Philip P Jeck, 85

Sudha Jebadurai Phones & Addresses

  • 7537 Cobblers Run, Youngstown, OH 44514 (330) 707-1029
  • 4202 New Rd, Youngstown, OH 44515
  • 230 Edna St, Youngstown, OH 44514
  • Poland, OH
  • Reunion, FL
  • 5686 Broadview Rd, Cleveland, OH 44134
  • Parma, OH

Work

Company: Agr international inc Jan 2008 Position: Project manager

Education

Degree: B.Tech. School / High School: Pondicherry Engineering College 1992 to 1996 Specialities: Computer Science

Skills

Sdlc • Software Project Management • Project Management • Software Engineering • Requirements Analysis • Software Design • Technical Leadership • Management • Engineering • Databases • Pmp • Solution Architecture • Integration • Ms Project • Project Portfolio Management • Testing • Software Development Life Cycle • Agile Project Management • Software Development

Languages

Tamil

Ranks

Certificate: Bloomberg Market Concepts

Industries

Machinery

Resumes

Resumes

Sudha Jebadurai Photo 1

Director Of Operations

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Location:
Youngstown, OH
Industry:
Machinery
Work:
AGR International Inc since Jan 2008
Project Manager
AGR International Inc Jan 2003 - Dec 2007
Software Team Lead
AGR International Inc Mar 1999 - Dec 2002
Senior Software Engineer
Ramco Systems, Chennai, India 1996 - 1998
Software Engineer
Education:
Pondicherry Engineering College 1992 - 1996
B.Tech., Computer Science St. Joseph of Cluny 1978 - 1990
10, School
Skills:
Sdlc
Software Project Management
Project Management
Software Engineering
Requirements Analysis
Software Design
Technical Leadership
Management
Engineering
Databases
Pmp
Solution Architecture
Integration
Ms Project
Project Portfolio Management
Testing
Software Development Life Cycle
Agile Project Management
Software Development
Languages:
Tamil
Certifications:
Bloomberg Market Concepts
Project Management Professional (Pmp)

Publications

Us Patents

Method For Manufacturing And Inspecting Blow-Molded Plastic Containers

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US Patent:
7374713, May 20, 2008
Filed:
Oct 5, 2006
Appl. No.:
11/543438
Inventors:
Craig Alan Birckbichler - Chicora PA, US
Sudha Christy Jebadurai - Poland OH, US
Georg V. Wolfe - Butler PA, US
Ronald A. Puvak - Butler PA, US
William E. Schmidt - Gibsonia PA, US
Assignee:
AGR International, Inc. - Butler PA
International Classification:
B29C 49/78
US Classification:
264410, 264 401, 264523, 425141, 4251744, 425538
Abstract:
A method of manufacturing plastic containers. The method may comprise the steps of (1) forming a plastic container from a preform in a blow-molder, where the blow-molder comprises a plurality of molds and spindles; and (2) inspecting the plastic container after formation in the blow-molder. The containers are inspected by impinging infrared light thereon and detecting the portion of the infrared light that passes through the container and converting the same into corresponding electrical signals which are delivered to a microprocessor. The microprocessor receives signals from sensors associated with the blow-molder relating to the position of the molds, the identity of the molds and the identity of the spindles in order that the information that is determined by inspection can be associated with specific molds and spindles. The information may be visually displayed so as to provide feedback regarding the inspection process. In a preferred embodiment wall thickness measurements are taken at several vertically spaced positions simultaneously.

Method And Apparatus For Monitoring Wall Thickness Of Blow-Molded Plastic Containers

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US Patent:
7378047, May 27, 2008
Filed:
Jan 24, 2005
Appl. No.:
11/041565
Inventors:
Craig Alan Birckbichler - Chicora PA, US
Sudha Christy Jebadurai - Poland OH, US
Georg V. Wolfe - Butler PA, US
Ronald A. Puvak - Butler PA, US
William E. Schmidt - Gibsonia PA, US
Assignee:
AGR International, Inc. - Butler PA
International Classification:
B29C 49/78
US Classification:
264410, 264 401, 264523, 425141, 4251744, 425538
Abstract:
A method of inspecting wall thickness of blow-molded plastic containers includes providing a blow-molder having a plurality of molds and a plurality of associated spindles. The containers are inspected by impinging infrared light thereon and detecting the portion of the infrared light that passes through the container and converting the same into corresponding electrical signals which are delivered to a microprocessor. The microprocessor compares the electrical signals with stored information regarding desired wall thickness of the container and emits output thickness information. The microprocessor receives signals from sensors associated with the blow-molder relating to the position of the molds, the identity of the molds and the identity of the spindles in order that the wall thickness information that is determined by inspection can be associated with specific molds and spindles. The wall thickness information may be averaged over a period of time or a number of containers. The information may be visually displayed so as to provide feedback regarding the inspection process.

Apparatus And Method For Manufacturing And Inspecting Blow-Molded Plastic Containers

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US Patent:
7780898, Aug 24, 2010
Filed:
Apr 21, 2008
Appl. No.:
12/148657
Inventors:
Craig Alan Birckbichler - Chicora PA, US
Sudha Christy Jebadurai - Poland OH, US
Georg V. Wolfe - Butler PA, US
Ronald A. Puvak - Butler PA, US
William E. Schmidt - Gibsonia PA, US
Assignee:
AGR International, Inc. - Butler PA
International Classification:
B29C 49/78
US Classification:
264408, 264410, 264 401, 264500
Abstract:
A method and apparatus for manufacturing and inspecting plastic containers. The apparatus may comprise a blow-molder comprising a plurality of molds and spindles for forming a plastic container from a preform. The apparatus may also comprise an inspection device, located in the blow-molder, for inspecting the plastic container after formation by the blow-molder. The inspection device may comprise (i) two or more light energy sources for directing light energy from an exterior of the plastic container toward the plastic container after formation of the plastic container by the blow-molder, and (ii) two or more light energy sensors, each light energy sensor operatively associated with one of the light energy sources, wherein each light energy sensor is for sensing a portion of the light energy that passes through of the plastic container and generating a signal from the sensed portion of the light energy that passes through the plastic container that is related to the light energy absorbed by the plastic container. The apparatus may also comprise a transfer arm in the blow molder for transporting the plastic container along the transport path through the inspection device. The apparatus may also comprise a microprocessor in communication with the inspection device for (i) determining a container attribute of the plastic container based on the signals related to the light energy absorbed by the plastic container; and (ii) determining the mold involved in formation of the plastic container based on at least one signal received by the microprocessor.

Method And Apparatus For Monitoring Wall Thickness Of Blow-Molded Plastic Containers

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US Patent:
6863860, Mar 8, 2005
Filed:
Mar 26, 2002
Appl. No.:
10/106263
Inventors:
Craig A. Birckbichler - Chicora PA, US
Sudha C. Jebadurai - Poland OH, US
Georg V. Wolfe - Butler PA, US
Ronald A. Puvak - Butler PA, US
William E. Schmidt - Gibsonia PA, US
Assignee:
AGR International, Inc. - Butler PA
International Classification:
B29C049/78
US Classification:
264410, 264 401, 264523, 425141, 4251744, 425538, 356632, 3562394, 2503418
Abstract:
A method of inspecting wall thickness of blow-molded plastic containers includes providing a blow-molder having a plurality of molds and a plurality of associated spindles. The containers are inspected by impinging infrared light thereon and detecting the portion of the infrared light that passes through the container and converting the same into corresponding electrical signals which are delivered to a microprocessor. The microprocessor compares the electrical signals with stored information regarding desired wall thickness of the container and emits output thickness information. The microprocessor receives signals from sensors associated with the blow-molder relating to the position of the molds, the identity of the molds and the identity of the spindles in order that the wall thickness information that is determined by inspection can be associated with specific molds and spindles. The wall thickness information may be averaged over a period of time or a number of containers. The information may be visually displayed so as to provide feedback regarding the inspection process.

Energy Efficient Blow Molder Control

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US Patent:
20210331372, Oct 28, 2021
Filed:
Jun 29, 2021
Appl. No.:
17/361614
Inventors:
- Butler PA, US
Sudha JEBADURAI - Poland OH, US
George V. WOLFE - Punta Gorda FL, US
William E. SCHMIDT - Butler PA, US
Assignee:
AGR International, Inc. - Butler PA
International Classification:
B29C 49/78
B29C 49/64
Abstract:
Blow molder system and associated method optimizes the performance, energy efficiency and/or operating costs of the blow molder. A blow molder controller executes a system model that relates blow molder input parameter changes to the characteristics of containers generated by the blow molder. Equipped with energy and/or operating cost data for operating the blow molder, the blow molder controller can select a set of blow molder input parameter changes for the blow molder that: drives the containers produced by the blow molder toward desired container characteristics, in an efficient amount of time, and in cost effective manner, considering the energy costs involved in implementing the changes.

Energy Efficient Blow Molder Control

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US Patent:
20200376736, Dec 3, 2020
Filed:
Jan 29, 2019
Appl. No.:
16/640246
Inventors:
- Butler PA, US
Sudha JEBADURAI - Poland OH, US
Georg V. WOLFE - Punta Gorda FL, US
William E. SCHMIDT - Butler PA, US
Assignee:
AGR International, Inc. - Butler PA
International Classification:
B29C 49/78
B29C 49/64
Abstract:
Blow molder system and associated method optimizes the performance, energy efficiency and/or operating costs of the blow molder. A blow molder controller executes a system model that relates blow molder input parameter changes to the characteristics of containers generated by the blow molder. Equipped with energy and/or operating cost data for operating the blow molder, the blow molder controller can select a set of blow molder input parameter changes for the blow molder that: drives the containers produced by the blow molder toward desired container characteristics, in an efficient amount of time, and in cost effective manner, considering the energy costs involved in implementing the changes.
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Sudha C Jebadurai from Poland, OH, age ~48 Get Report