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Thirteenth National Conference on Packaging Engineering (TNCPE 2010 E-BOOK)

Wuhan,China,8.21-8.26,2010

ISBN: 978-1-935068-22-8 Scientific Research Publishing, USA

E-Book 456pp Pub. Date: August 2010

Category: Engineering

Price: $80

Title: Plasma Enhanced Chemical Vapor Deposition of SiOx Layer on the Surface of the Polylactic Acid(PLA) Film and Its Barrier Performance
Source: Thirteenth National Conference on Packaging Engineering (TNCPE 2010 E-BOOK) (pp 158-162)
Author(s): Xinlin Zhang, Printing & Package Material and Technology-Beijing Area Major Laboratory, Beijing Institute of Graphic Communication Beijing
Wencai Xu, Printing & Package Material and Technology-Beijing Area Major Laboratory, Beijing Institute of Graphic Communication Beijing
Zhengduo Wang, Printing & Package Material and Technology-Beijing Area Major Laboratory, Beijing Institute of Graphic Communication Beijing
Lixia Huo, Printing & Package Material and Technology-Beijing Area Major Laboratory, Beijing Institute of Graphic Communication Beijing
Abstract: A PLA film with good barrier performance was prepared by depositing a SiOx layer on a 20μmAbstract: Mineral fibers with different addition amount were incorporated into waste paper pulp to makePLA substrate by plasma enhanced chemical vapor deposition (PECVD). The SiOx layer was colorless andAbstract: Mineral fibers with different addition amount were incorporated into waste paper pulp to makeadheres firmly on the PLA substrate. FTIR, SEM and AFM were used to characterize the PLA film whichAbstract: Mineral fibers with different addition amount were incorporated into waste paper pulp to makehad been deposited by a SiOx layer. It was demonstrated that the structure of the SiOx layer wasAbstract: Mineral fibers with different addition amount were incorporated into waste paper pulp to makehomogeneous and compact and the thickness of the SiOx layer was 248nm. The oxygen transmission rateAbstract: Mineral fibers with different addition amount were incorporated into waste paper pulp to make(OTR) of the film decreased from 257.7563cc/[m2·day] to 23.72629cc/[m2·day] after the deposition. TheAbstract: Mineral fibers with different addition amount were incorporated into waste paper pulp to makewater vapor transmission rate (WVTR) of the film decreased from 202.9313gm/[m2·day] toAbstract: Mineral fibers with different addition amount were incorporated into waste paper pulp to make18.35087gm/[m2·day] after the deposition. Barrier property of the PLA film was improved obviously.
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