Recycled Glass Polypropylene Composites from Transportation Manufacturing Waste

Uday Vaidya; Sanjita Wasti; Halil Tekinalp; Ahmed Arabi Hassen; Soydan Ozcan

doi:10.3390/jcs7030099

Recycled Glass Polypropylene Composites from Transportation Manufacturing Waste

Uday Vaidya, Sanjita Wasti, Halil Tekinalp, Ahmed Arabi Hassen, Soydan Ozcan

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

In recent years there has been growing interest in developing recycling technologies for composites manufacturing scrap, process waste and end-of-life parts. The focus of this work was to establish processing routes and mechanical property bounds for glass-polypropylene (PP-GF) scrap from the production of parts for truck trailers, automobiles, and rail cars. This study considered PP-GF scrap and demonstrated extrusion-compression molding (ECM) as a viable route for the closed-loop manufacture of composite parts. The results were promising in terms of the strength and modulus retention of the PP-GF recyclate. The tensile strength and modulus was the highest for 50% and 66% recycled content, compared with 100% and 83% recycle content. The flexural strength and modulus of the 100% and 83% recycled compositions was higher than the 66% and 50% recycled content, respectively. The impact energy absorption of the PP-GF recyclate at at all fiber loadings was superior in absorbing energy compared with the incumbent (benchmark) plywood. This work is useful to designers seeking to incorporate recycled materials in their products.

Original language	English
Article number	99
Journal	Journal of Composites Science
Volume	7
Issue number	3
DOIs	https://doi.org/10.3390/jcs7030099
State	Published - Mar 2023

Funding

The work was motivated by the Institute for Advanced Composites Manufacturing Innovation (IACMI)—the composites members emphasis on composites recycling. IACMI—The Composites Institute was funded in part by the Office of Energy Efficiency and Renewable Energy (EERE), U.S. Department of Energy, under Award Number DE-EE0006926, and DOE University of Maine. The authors thank Ed Pilpel formerly Polystrand for support of materials and technical discussions. This research was funded in part by U.S. Department of Energy, under Award Number DE-EE0006926 and DOE and in part by the collaborative program between Oak Ridge National Laboratory and University of Maine.

Keywords

composite
extrusion-compression molding
glass fibers
recycled
thermoplastics

Access to Document

10.3390/jcs7030099

Cite this

@article{24e1f4a0ad8942f0aa2fabfcf7644d00,

title = "Recycled Glass Polypropylene Composites from Transportation Manufacturing Waste",

abstract = "In recent years there has been growing interest in developing recycling technologies for composites manufacturing scrap, process waste and end-of-life parts. The focus of this work was to establish processing routes and mechanical property bounds for glass-polypropylene (PP-GF) scrap from the production of parts for truck trailers, automobiles, and rail cars. This study considered PP-GF scrap and demonstrated extrusion-compression molding (ECM) as a viable route for the closed-loop manufacture of composite parts. The results were promising in terms of the strength and modulus retention of the PP-GF recyclate. The tensile strength and modulus was the highest for 50\% and 66\% recycled content, compared with 100\% and 83\% recycle content. The flexural strength and modulus of the 100\% and 83\% recycled compositions was higher than the 66\% and 50\% recycled content, respectively. The impact energy absorption of the PP-GF recyclate at at all fiber loadings was superior in absorbing energy compared with the incumbent (benchmark) plywood. This work is useful to designers seeking to incorporate recycled materials in their products.",

keywords = "composite, extrusion-compression molding, glass fibers, recycled, thermoplastics",

author = "Uday Vaidya and Sanjita Wasti and Halil Tekinalp and Hassen, \{Ahmed Arabi\} and Soydan Ozcan",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = mar,

doi = "10.3390/jcs7030099",

language = "English",

volume = "7",

journal = "Journal of Composites Science",

issn = "2504-477X",

publisher = "MDPI",

number = "3",

}

TY - JOUR

T1 - Recycled Glass Polypropylene Composites from Transportation Manufacturing Waste

AU - Vaidya, Uday

AU - Wasti, Sanjita

AU - Tekinalp, Halil

AU - Hassen, Ahmed Arabi

AU - Ozcan, Soydan

PY - 2023/3

Y1 - 2023/3

N2 - In recent years there has been growing interest in developing recycling technologies for composites manufacturing scrap, process waste and end-of-life parts. The focus of this work was to establish processing routes and mechanical property bounds for glass-polypropylene (PP-GF) scrap from the production of parts for truck trailers, automobiles, and rail cars. This study considered PP-GF scrap and demonstrated extrusion-compression molding (ECM) as a viable route for the closed-loop manufacture of composite parts. The results were promising in terms of the strength and modulus retention of the PP-GF recyclate. The tensile strength and modulus was the highest for 50% and 66% recycled content, compared with 100% and 83% recycle content. The flexural strength and modulus of the 100% and 83% recycled compositions was higher than the 66% and 50% recycled content, respectively. The impact energy absorption of the PP-GF recyclate at at all fiber loadings was superior in absorbing energy compared with the incumbent (benchmark) plywood. This work is useful to designers seeking to incorporate recycled materials in their products.

AB - In recent years there has been growing interest in developing recycling technologies for composites manufacturing scrap, process waste and end-of-life parts. The focus of this work was to establish processing routes and mechanical property bounds for glass-polypropylene (PP-GF) scrap from the production of parts for truck trailers, automobiles, and rail cars. This study considered PP-GF scrap and demonstrated extrusion-compression molding (ECM) as a viable route for the closed-loop manufacture of composite parts. The results were promising in terms of the strength and modulus retention of the PP-GF recyclate. The tensile strength and modulus was the highest for 50% and 66% recycled content, compared with 100% and 83% recycle content. The flexural strength and modulus of the 100% and 83% recycled compositions was higher than the 66% and 50% recycled content, respectively. The impact energy absorption of the PP-GF recyclate at at all fiber loadings was superior in absorbing energy compared with the incumbent (benchmark) plywood. This work is useful to designers seeking to incorporate recycled materials in their products.

KW - composite

KW - extrusion-compression molding

KW - glass fibers

KW - recycled

KW - thermoplastics

UR - https://www.scopus.com/pages/publications/85151166003

U2 - 10.3390/jcs7030099

DO - 10.3390/jcs7030099

M3 - Article

AN - SCOPUS:85151166003

SN - 2504-477X

VL - 7

JO - Journal of Composites Science

JF - Journal of Composites Science

IS - 3

M1 - 99

ER -

Recycled Glass Polypropylene Composites from Transportation Manufacturing Waste

Abstract

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Cite this