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      Enhancement of the Mechanical Properties of Basalt Fiber-Wood-Plastic Composites via Maleic Anhydride Grafted High-Density Polyethylene (MAPE) Addition

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          Abstract

          This study investigated the mechanisms, using microscopy and strength testing approaches, by which the addition of maleic anhydride grafted high-density polyethylene (MAPE) enhances the mechanical properties of basalt fiber-wood-plastic composites (BF-WPCs). The maximum values of the specific tensile and flexural strengths areachieved at a MAPE content of 5%–8%. The elongation increases rapidly at first and then continues slowly. The nearly complete integration of the wood fiber with the high-density polyethylene upon MAPE addition to WPC is examined, and two models of interfacial behavior are proposed. We examined the physical significance of both interfacial models and their ability to accurately describe the effects of MAPE addition. The mechanism of formation of the Model I interface and the integrated matrix is outlined based on the chemical reactions that may occur between the various components as a result of hydrogen bond formation or based on the principle of compatibility, resulting from similar polarity. The Model I fracture occurred on the outer surface of the interfacial layer, visually demonstrating the compatibilization effect of MAPE addition.

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          Silane coupling agents used for natural fiber/polymer composites: A review

          Yanjun Xie, Carsten Mai, Holger Militz (2010)
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            Wood-plastic composites as promising green-composites for automotive industries!

            Alireza Ashori (2008)
            Wood-plastic composite (WPC) is a very promising and sustainable green material to achieve durability without using toxic chemicals. The term WPCs refers to any composites that contain plant fiber and thermosets or thermoplastics. In comparison to other fibrous materials, plant fibers are in general suitable to reinforce plastics due to relative high strength and stiffness, low cost, low density, low CO2 emission, biodegradability and annually renewable. Plant fibers as fillers and reinforcements for polymers are currently the fastest-growing type of polymer additives. Since automakers are aiming to make every part either recyclable or biodegradable, there still seems to be some scope for green-composites based on biodegradable polymers and plant fibers. From a technical point of view, these bio-based composites will enhance mechanical strength and acoustic performance, reduce material weight and fuel consumption, lower production cost, improve passenger safety and shatterproof performance under extreme temperature changes, and improve biodegradability for the auto interior parts.
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              Characteristics of basalt fiber as a strengthening material for concrete structures

              Jongsung Sim, Do Moon, Cheolwoo Park (2005)
              Article 0 comments Cited 148 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): Materials (Basel)
                Journal ID (iso-abbrev): Materials (Basel)
                Journal ID (publisher-id): materials
                Title: Materials
                Publisher: MDPI
                ISSN (Electronic): 1996-1944
                Publication date (Electronic): 18 June 2013
                Publication date Collection: June 2013
                Volume: 6
                Issue: 6
                Pages: 2483-2496
                Affiliations
                [1 ]Key Laboratory of Concrete and Prestressed Concrete Structures of Ministry of Education & International Institute for Urban Systems Engineering, Southeast University, Nanjing 210096, China; E-Mails: kang2008year@ 123456126.com (C.G.); llljjjxxxun@ 123456126.com (J.L.); limin.li@ 123456163.com (M.L.)
                [2 ]Faculty of Mechanical Engineering & Automation, Zhejiang Sci-Tech University, Hangzhou 310018, China; E-Mail: dcuwy@ 123456163.com
                [3 ]Jiangsu Key Laboratory of Construction Materials, School of Materials Science and Engineering, Southeast University, Nanjing 211189, China; E-Mail: yfliu@ 123456seu.edu.cn
                [4 ]Department of Mechanical Engineering, Graduate School & Faculty of Engineering, Chiba University, Chiba 263-8522, Japan; E-Mail: luyun@ 123456faculty.chiba-u.jp
                Author notes
                [* ]Author to whom correspondence should be addressed; E-Mail: chenjpaper@ 123456yahoo.co.jp ; Tel.: +86-25-8379-3831; Fax: +86-25-8379-3231.
                Article
                Publisher ID: materials-06-02483
                DOI: 10.3390/ma6062483
                PMC ID: 5458936
                SO-VID: 6171c3cb-a790-4632-923c-72b339272794
                Copyright © © 2013 by the authors;
                License:

                licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license ( http://creativecommons.org/licenses/by/3.0/).

                History
                Date received : 17 December 2012
                Date revision received : 21 May 2013
                Date accepted : 31 May 2013
                Categories
                Subject: Article

                Keywords: wpc,basalt fiber,mape,composite material
                Data availability:
                Keywords: wpc, basalt fiber, mape, composite material

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