Specifications

28.8MPa respectively, increased by 20.9% and 12.6% compared to those of rPP matrix. The

elongation at break of WPC is 10.6%, and the flexural modulus is 1328.9MPa, increased by 7.7%

compared to those of rPP matrix. The structure analysis found that there is no chemical reaction

between the fibers and the matrix. The research results have important practical significance in

the field of printing and packaging waste recycling and utilization, environmental protection and

energy saving. © (2013) Trans Tech Publications, Switzerland.

Number of references: 7

Main heading: Polypropylenes

Controlled terms: Blending - Compression molding - Elastomers - Mechanical

properties - Printing - Recycling - Thermoplastics - Waste paper - Wood

products

Uncontrolled terms: Blending temperature - Elongation at break - Flexural

modulus - FTIR - Molding pressure - Molding temperature - Molding time - Old

newspapers - Packaging waste - Preparation process - Recycled-plastic - Research

results - Resource-Rich - Structure analysis - Structure of composites - Technical

conditions - Wastepaper fibers - Wood plastic composite - Wood resources -

Wood-plastic composites - Wood-plastics composite

Classification code: 818.2 Elastomers - 816.1 Processing of Plastics and Other Polymers

- 815.1.1 Organic Polymers - 951 Materials Science - 811.2 Wood and Wood Products -

745.1 Printing - 452.3 Industrial Wastes - 802.3 Chemical Operations

DOI: 10.4028/www.scientific.net/AMM.262.418

Database: Compendex

40.

Accession number: 20130515975974

Title: Research on reconstruction of spectral reflectance based on principal component

analysis

Authors: Zhang, Yana1 ; Zhou, Shisheng1/张亚娜;周世生

Author affiliation:

1 Institute of Printing and Packaging Engineering, Xi'an University of Technology, China

Corresponding author: Zhang, Y. (zhangyan1992@xaut.edu.cn)

Source title: Applied Mechanics and Materials

Abbreviated source title: Appl. Mech. Mater.

Volume: 262

Monograph title: Advances in Printing and Packaging Technologies

Issue date: 2013

Publication year: 2013

Pages: 53-58

Language: English

ISSN: 16609336

E-ISSN: 16627482

ISBN-13: 9783037855720

Document type: Conference article (CA)

Conference name: 2nd China Academic Conference on Printing and Packaging, CACPP 2012