The SPE Library contains thousands of papers, presentations, journal briefs and recorded webinars from the best minds in the Plastics Industry. Spanning almost two decades, this collection of published research and development work in polymer science and plastics technology is a wealth of knowledge and information for anyone involved in plastics.
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Various topics related to sustainability in plastics, including bio-related, environmental issues, green, recycling, renewal, re-use and sustainability.
Waste wheat straw can be treated for use as an environmentally sustainable reinforcement in composite materials, with performance equal or better than wood-polymer composites.
Hamed Nazarpour-Fard , Ramin Shamsi, Reza Sheibani, October 2017
Dynamic mechanical analysis and three well-known models were used to investigate the mechanical properties of samples synthesized from recycled poly-ethylene terephthalate.
Eugenio Amendola, Antonello Pastore, Stefania Dello Iacono, Alfonso Martone, July 2017
A thermo-reversible self-healing epoxy resin based on Diels-Alder chemistry is synthesized and strength-tested as part of a fiber-reinforced composite material.
Incorporating silicon carbide and calcium carbonate nanofillers into soy protein and starch, respectively, improves the thermal, mechanical, and chemical-resistance properties of the samples.
Use of unconventional filler materials as a recycling strategy for sustainable manufacturing practices is in its infancy of adoption into commercial applications. The hope is to displace conventional fillers while improving on raw materials utilization. Materials that I will discuss focus on recycled unconventional fillers and include: Sawdust, Paint Waste, Paper Powder, Crumb Rubber
Poly(pentamethylene oxamide) exhibits excellent mechanical, thermal, and water absorption properties, and is suitable for the fabrication of plastics, as well as parts in the automobile and electronics industries.
Aiga Ivdre, Ugis Cabulis, Mirta Ines Aranguren, Juan Manuel Buffa, Pablo Marcelo Stefani, Veronica Mucci, June 2017
Environmentally friendly nanocomposite materials from bio-based polyurethane and cellulose nanocrystals show significantly improved mechanical properties with only 1 nanocrystal filler.
Hero Jan Heeres, Francesco Picchioni, Asaf Sugih, Henky Muljana, May 2017
The novel use of sago starch and vinyl laurate in densified carbon dioxide increases the reactivity of esterification and produces final products that have higher degrees of substitution.
Donna Visioli, Karlheinz Hausmann, Sarah Perreard, May 2017
Packaging sustainability has many contributing factors including: renewable materials; reduced package weight; recyclable materials; reduced food waste (for food packaging); and reduced packaging waste. These factors and interactions among them are described, along with examples of implementation.
Sushant Agarwal, Man Chio Tang, Fares D. Alsewailem, Hyoung J. Choi, Rakesh K. Gupta, May 2017
A simple theory that builds on the tortuous path concept is developed to quantitatively predict mass transport through a polymer containing dispersed nanoplatelets, and data are presented on polylactic acid (PLA)-matrix nanocomposites. PLA is a bioderived biodegradable polymer that is being employed in food packaging where the plastic is discarded after a single use. However, the poor water vapor barrier property of PLA limits its use in this regard, and it is of interest to reduce moisture permeability through this polymer. In the present work, Cloisite 30B, an organoclay that is compatible with PLA, was dispersed in the polymer via melt-mixing, and processing conditions were optimized to reduce platelet agglomeration. Nanocomposite morphology was characterized with transmission electron microscopy, and moisture permeability was measured as a function of clay content. There was good agreement with the proposed theory, and it was found that at a 5.3 vol% filler loading the water vapor permeability was reduced by almost 70%.
Ben Jar, Patrick Ward, Chester Jar, Yi Zhang, Wajdy Ateerah, May 2017
A new test method has been developed to evaluate environmental stress cracking resistance (ESCR) for polyethylene (PE). The new test method applies transverse loading to the central area of a plate specimen, to generate local stretch that results in a truncated cone. Time for crack initiation in the truncated cone, during the exposure to an aggressive agent (10% Igepal CO-630 solution), is used to characterize ESCR. Results from the new test method are consistent with those from ASTM D1693, but the former does not require any pre-notch and takes less than 3% of the time required for the latter. Based on the new test method, a stand-alone device has been developed to characterize ESCR, which uses change in electrical conductivity to measure the time for the crack development. The device is compact and easy to operate. Using this device, time for crack initiation can be determined automatically and accurately without the use of a commercial test machine.
Omar Faruk, Birat KC, Jimi Tjong, Mohini Sain, May 2017
Automotive industries are promoting and working to improve the sustainability of their vehicles by using materials, which includes increasing of recycled and lightweight materials. Increasing recycled materials is to improve resource efficiency by recycling consumer and industrial waste and increasing lightweight materials is to improve vehicle fuel efficiency by expanding the use of lightweight materials. An automotive prototype (oil pan) is developed from 100% recycled material (20 wt% recycled carbon fiber with 80 wt% recycled polyamide) to improve fuel efficiency by light weighting and as well as sustainability. The material properties and processing parameters are compared to current production part. A global thermal cycling durability test of prototype part has been performed where the continuous high temperature is mainly concerned. It is found that the prototype part is 15% lighter than current part and as well as lower processing time. The prototype part has successfully passed the global thermal cycling durability test.
David Grewell, Kendra Allen, Eric Cochran, Chris Williams, Ty’Jamin Roark, May 2017
This papers reviews the development and characterization of a bio-based construction using glycerin from transesterification of soybean oil for the production of biodiesel. The results indicate that the bio-based adhesive has the ability to perform as well as, and in some cases better than commercially available petrochemical adhesives. The bio-based adhesive is based on renewable feedstocks, has zero VOC (Volatile Organic Compounds), and is sustainable. The bio-based adhesive was compared to commercial petrochemical adhesives in terms of lap shear strength, water stability, creep resistance, and three point bend strength. In addition, construction materials, such as oriented strand boards (OSB) were produced with the bio-based adhesive and compared to commercially available OSBs. Based on three-point bend tests and water stability, the results indicate that the bio-based OSB products performed as well as OSB products based on petrochemicals. Future tasks involve discovering and optimizing more applications for the bio adhesive such as rubber adhesion and flexibility, and pressure sensitive applications.
• Brief introduction to Envision Plastics • Getting to an LNO • Food Grade for HDPE: EcoPrime™ • Markets served using recycled HDPE • Our Newest LNO and Patent • LCA and Conclusions
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Any article that is cited in another manuscript or other work is required to use the correct reference style. Below is an example of the reference style for SPE articles:
Brown, H. L. and Jones, D. H. 2016, May.
"Insert title of paper here in quotes,"
ANTEC 2016 - Indianapolis, Indiana, USA May 23-25, 2016. [On-line].
Society of Plastics Engineers
Available: www.4spe.org.
Note: if there are more than three authors you may use the first author's name and et al. EG Brown, H. L. et al.