Development of Radiation Processed Nano-Composite Blends and Nano-Coatings for Industrial Applications

Dubey, K. A.; Kumar, Virendra; Bhardwaj, Yatender; Chaudhari, Chandrasekhar; Sarma, K. S.S.; Khader, Sheikh Abdul; Acharya, Satyanarayan

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Development of Radiation Processed Nano-Composite Blends and Nano-Coatings for Industrial Applications

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Abstract

Radiation processing of nanoparticle-filled polymer blends and coatings is expected to synergize the benefits of radiation processing and the flexibility of achieving various property combinations. High energy radiation can be utilized in a variety of ways to modify these systems. It can be used to crosslink the matrix, to compatibilize the blend components, to synthesize graft copolymer based compatibilizers, to improve interfacial bonding between the nanofiller/polymers or to freeze the morphology. Properties like flame retardency, permeability, abrasion resistance, biocompatibility and antibacterial activity can also be significantly affected by this composite approach. Due to the variety and quality of the product it promises, radiation processing of these mixed systems has been our core interest in the last few years. In the report, some of results on the radiation processing of SBR/EPDM blends and SBR/EPDM/MWNT nanocomposites are presented. (author)

Authors:

Dubey, K. A.; Kumar, Virendra; Bhardwaj, Yatender; Chaudhari, Chandrasekhar; Sarma, K. S.S.; Khader, Sheikh Abdul; Acharya, Satyanarayan ^[1]

Bhabha Atomic Research Centre, Trombay, Mumbai (India)

Publication Date:

Jul 01, 2011

Product Type:

Conference

Report Number:

IAEA-RC-1207.1

Resource Relation:

Conference: 1. RCM on Radiation Curing of Composites for Enhancing the Features and Utility in Health Care and Industry, Vienna (Austria), 18-22 Jul 2011; Other Information: 19 refs., 7 figs., 2 tabs.; Related Information: In: Report of the 1st RCM on Radiation Curing of Composites for Enhancing the Features and Utility in Health Care and Industry. Working Material| 179 p.

Subject:

77 NANOSCIENCE AND NANOTECHNOLOGY; ABRASION; BONDING; COMPOSITE MATERIALS; COPOLYMERS; ETHYLENE PROPYLENE DIENE POLYMERS; FLEXIBILITY; NANOSTRUCTURES; PROCESSING

OSTI ID:

22270125

Research Organizations:

International Atomic Energy Agency, Division of Physical and Chemical Sciences, Vienna (Austria)

Country of Origin:

IAEA

Language:

English

Other Identifying Numbers:

TRN: XA14M2994091357

Availability:

Available from INIS in electronic form. Also available on-line: http://www-naweb.iaea.org/napc/iachem/working_materials/RC-1207-1-report.pdf

Submitting Site:

INIS

Size:

page(s) 88-99

Announcement Date:

Oct 23, 2014

Citation Formats

Dubey, K. A., Kumar, Virendra, Bhardwaj, Yatender, Chaudhari, Chandrasekhar, Sarma, K. S.S., Khader, Sheikh Abdul, and Acharya, Satyanarayan. Development of Radiation Processed Nano-Composite Blends and Nano-Coatings for Industrial Applications. IAEA: N. p., 2011. Web.

Dubey, K. A., Kumar, Virendra, Bhardwaj, Yatender, Chaudhari, Chandrasekhar, Sarma, K. S.S., Khader, Sheikh Abdul, & Acharya, Satyanarayan. Development of Radiation Processed Nano-Composite Blends and Nano-Coatings for Industrial Applications. IAEA.

Dubey, K. A., Kumar, Virendra, Bhardwaj, Yatender, Chaudhari, Chandrasekhar, Sarma, K. S.S., Khader, Sheikh Abdul, and Acharya, Satyanarayan. 2011. "Development of Radiation Processed Nano-Composite Blends and Nano-Coatings for Industrial Applications." IAEA.

@misc{etde_22270125,
title = {Development of Radiation Processed Nano-Composite Blends and Nano-Coatings for Industrial Applications}
author = {Dubey, K. A., Kumar, Virendra, Bhardwaj, Yatender, Chaudhari, Chandrasekhar, Sarma, K. S.S., Khader, Sheikh Abdul, and Acharya, Satyanarayan}
abstractNote = {Radiation processing of nanoparticle-filled polymer blends and coatings is expected to synergize the benefits of radiation processing and the flexibility of achieving various property combinations. High energy radiation can be utilized in a variety of ways to modify these systems. It can be used to crosslink the matrix, to compatibilize the blend components, to synthesize graft copolymer based compatibilizers, to improve interfacial bonding between the nanofiller/polymers or to freeze the morphology. Properties like flame retardency, permeability, abrasion resistance, biocompatibility and antibacterial activity can also be significantly affected by this composite approach. Due to the variety and quality of the product it promises, radiation processing of these mixed systems has been our core interest in the last few years. In the report, some of results on the radiation processing of SBR/EPDM blends and SBR/EPDM/MWNT nanocomposites are presented. (author)}
place = {IAEA}
year = {2011}
month = {Jul}
}

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