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Sutapa Bhaduri

from Alexandria, VA
Age ~65
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Also known as:
Sue Bhaduri, Srit Bhaduri, Sarit Bhaduri, Bhaduri Sutapa
Related to:
Shaina Bhaduri, 33S BhaduriSarit B Bhaduri, 70Shmit Baduri, 40Shaona Bhaduri, 33
Connected to:
Arnab Bhaduri, 57Priya Bhaduri, 46Katrine Bhadury, 55Nisha A Bhaga, 38Avaneesh K Bhagat, 61Chanchalben J Bhagat, 80Deepak Bhagat, 74Dhruvitkumar R Bhagat, 38Irene E Bhagat, 73Krunal Bhagat, 40

Sutapa Bhaduri Phones & Addresses

  • Alexandria, VA
  • 9002 Rolling Hill Rd, Holland, OH 43528 (419) 866-0639
  • 9102 Rolling Hill Rd, Holland, OH 43528 (419) 866-0639
  • Anderson, SC
  • Central, SC
  • 1666 Damen St, Moscow, ID 83843 (208) 882-4203
  • Clemson, SC
  • Lucas, OH

Work

Company: O-i Jun 2016 Position: Technology strategist and sustainability global leader

Education

School / High School: University of Idaho 1998 Specialities: Philosophy

Skills

Materials Science • Polymer Science • R&D • Powder X Ray Diffraction • Chemistry • Plastics • Manufacturing • Product Development • Nanomaterials • Nanocomposites • Polymer Characterization • Coatings • Scanning Electron Microscopy • Materials • Chemical Engineering • Extrusion • Characterization • Microscopy • Product Innovation • Biomaterials • Glass • Injection Molding • Rheology • Ceramics • Intermetallics • Nanotechnology • Tga • Design of Experiments • Thin Films • Research and Development

Languages

English • Bengali • Hindi • Spanish

Interests

Pop Art • Entrepreneurship • Traveling • Environment • Digital Art • Education • Science and Technology • Music • Human Rights

Industries

Packaging And Containers

Resumes

Resumes

Sutapa Bhaduri Photo 1

Technology Strategist And Sustainability Global Leader

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Location:
Washington, DC
Industry:
Packaging And Containers
Work:
O-I
Technology Strategist and Sustainability Global Leader
O-I Jul 2013 - Jun 2016
Discipline Leader, Chemical and Materials Engineering
O-I Mar 2012 - Jun 2013
Senior Research Scientist
Plastic Technologies, Inc. Mar 2007 - Mar 2012
Senior Scientist
Clemson University Aug 2002 - Dec 2006
Researh Professor
Education:
University of Idaho 1998
University of Idaho 1994 - 1998
Doctorates, Masters, Doctor of Philosophy, Metallurgical Engineering, Engineering, Materials Science University of Idaho 1995
Master of Science, Masters Jadavpur University
Master of Science, Masters Jadavpur University
Bachelors, Bachelor of Science Jadavpur University
Bachelors, Physics
Skills:
Materials Science
Polymer Science
R&D
Powder X Ray Diffraction
Chemistry
Plastics
Manufacturing
Product Development
Nanomaterials
Nanocomposites
Polymer Characterization
Coatings
Scanning Electron Microscopy
Materials
Chemical Engineering
Extrusion
Characterization
Microscopy
Product Innovation
Biomaterials
Glass
Injection Molding
Rheology
Ceramics
Intermetallics
Nanotechnology
Tga
Design of Experiments
Thin Films
Research and Development
Interests:
Pop Art
Entrepreneurship
Traveling
Environment
Digital Art
Education
Science and Technology
Music
Human Rights
Languages:
English
Bengali
Hindi
Spanish

Publications

Us Patents

Metal Part Having A Dense Core And Porous Periphery, Biocompatible Prosthesis And Microwave Sintering

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US Patent:
20050025656, Feb 3, 2005
Filed:
Sep 1, 2004
Appl. No.:
10/931829
Inventors:
Sutapa Bhaduri - Moscow ID, US
Sarit Bhaduri - Moscow ID, US
International Classification:
A61C008/00
B32B003/26
US Classification:
419052000, 428304400, 433206000
Abstract:
Monoclithic metallic parts having a dense core surrounded by a porous preiphery. Metallic parts having a dense core surrounded by a porous periphery characterized by a multitude of interconnected pores. Dental implants and other prosthesis using such metal parts as a substrate coated with a bioactive material. Microwave sintering a compacted metal powder to produce such parts and prosthesis.

Metal Part Having A Dense Core And Porous Periphery, Biocompatible Prosthesis And Microwave Sintering

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US Patent:
20050032025, Feb 10, 2005
Filed:
Sep 1, 2004
Appl. No.:
10/931830
Inventors:
Sutapa Bhaduri - Moscow ID, US
Sarit Bhaduri - Moscow ID, US
International Classification:
A61C008/00
US Classification:
433201100, 433173000
Abstract:
Monolithic metallic parts having a dense core surrounded by a porous periphery. Metallic parts having a dense core surrounded by a porous periphery characterized by a multitude of interconnected pores. Dental implants and other prosthesis using such metal parts as a substrate coated with a bioactive material. Microwave sintering a compacted metal powder to produce such parts and prosthesis.

Metal Part Having A Dense Core And Porous Periphery, Biocompatible Prosthesis And Microwave Sintering

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US Patent:
20020106611, Aug 8, 2002
Filed:
Jan 18, 2002
Appl. No.:
10/052291
Inventors:
Sutapa Bhaduri - Moscow ID, US
Sarit Bhaduri - Moscow ID, US
International Classification:
A61C008/00
US Classification:
433/201100, 623/023550, 623/023570
Abstract:
Monolithic metallic parts having a dense core surrounded by a porous periphery. Metallic parts having a dense core surrounded by a porous periphery characterized by a multitude of interconnected pores. Dental implants and other prosthesis using such metal parts as a substrate coated with a bioactive material. Microwave sintering a compacted metal powder to produce such parts and prosthesis

Surgical Instrument Assembly Including An End Effector Configurable In Different Positions

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US Patent:
20210094859, Apr 1, 2021
Filed:
Oct 1, 2019
Appl. No.:
16/590077
Inventors:
- Perrysburg OH, US
Udaya Vempati - Ottawa IL, US
Casey Townsend - Perrysburg OH, US
Earnest R. Iddings - Sylvania OH, US
Sutapa Bhaduri - Holland OH, US
Nicholas A. Schoenrock - Rudolph OH, US
International Classification:
C03B 5/225
C03B 5/235
C03B 5/173
C03C 1/00
C03C 1/04
Abstract:
In a process for manufacturing glass, a mixture of solid glass-forming materials may be melted by application of heat from one or more submerged combustion burners to produce a volume of unrefined molten glass comprising, by volume, 20% to 40% gas bubbles. A refining agent may be introduced into the unrefined molten glass to promote gas bubble removal from the molten glass. The unrefined molten glass including the refining agent may be heated at a temperature in the range of 1200 C. to 1500 C. to produce a volume of refined molten glass. The refined molten glass may comprise, by volume, fewer gas bubbles than the unrefined molten glass. A colorant material may be introduced into the refined molten glass to produce a volume of molten glass having a final desired color.

Glass Precursor Gel

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US Patent:
20180162766, Jun 14, 2018
Filed:
Feb 8, 2018
Appl. No.:
15/892051
Inventors:
- Perrysburg OH, US
Michael P. Remington - Toldeo OH, US
Scott Weil - Maumee OH, US
Tilak Gullinkala - Perrysburg OH, US
Sutapa Bhaduri - Holland OH, US
International Classification:
C03C 1/00
C03C 3/078
C03C 3/102
C03B 5/00
C03B 9/193
C03C 3/087
C03C 3/089
Abstract:
A glass precursor gel and a method of making a glass product from the glass precursor gel are disclosed. The glass precursor gel includes a bulk amorphous oxide-based matrix that is homogeneously chemically mixed and includes 30 mol % to 90 wt.% silica and at least one of the following: (A) 0.1 mol % to 25 mol % of one or more alkali oxides in sum total, (B) 0.1 mol % to 25 mol % of one or more alkaline earth oxides in sum total, (C) 1 mol % to 20 mol % boric oxide, (D) 5 mol % to 80 mol % lead oxide, or (E) 0.1 mol % to 10 mol % aluminum oxide. A method of making a glass product from the glass precursor gel involves obtaining the glass precursor gel, melting the glass precursor gel into molten glass, and forming the molten glass into a glass product.

Glass Precursor Gel

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US Patent:
20160289114, Oct 6, 2016
Filed:
Apr 1, 2015
Appl. No.:
14/676372
Inventors:
- Perrysburg OH, US
Michael P. Remington - Toledo OH, US
Scott Weil - Maumee OH, US
Tilak Gullinkala - Perrysburg OH, US
Sutapa Bhaduri - Holland OH, US
International Classification:
C03C 1/00
C03B 9/193
C03C 3/087
Abstract:
A glass precursor gel and a method of making a glass product from the glass precursor gel are disclosed. The glass precursor gel includes a bulk amorphous oxide-based matrix that is homogeneously chemically mixed and includes 30 mol % to 90 wt. % silica and at least one of the following: (A) 0.1 mol % to 25 mol % of one or more alkali oxides in sum total, (B) 0.1 mol % to 25 mol % of one or more alkaline earth oxides in sum total, (C) 1 mol % to 20 mol % boric oxide, (D) 5 mol % to 80 mol % lead oxide, or (E) 0.1 mol % to 10 mol % aluminum oxide. A method of making a glass product from the glass precursor gel involves obtaining the glass precursor gel, melting the glass precursor gel into molten glass, and forming the molten glass into a glass product.
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Sutapa Bhaduri from Alexandria, VA, age ~65 Get Report