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Conference Proceedings

Quantitative Evaluation Of Mar Visibility Resistance Of Polymer Films
Shuang Xiao, May 2018

Susceptibility to visible mar damage of polymers significantly affects their aesthetic appearance. Quantitative evaluation of mar damage on polymer surfaces is highly desired for the design of mar resistant polymers and structures. In this study, an effective mar testing and evaluation methodology is introduced that is capable of evaluating mar damage for white and transparent thin polymer films, which are the most difficult colors for mar detection. Here, the mar damage is imaged and evaluated based on the contrast differences between the marred area and virgin background along the mar path. It is found that mar contrast results obtained by this method show good correlation with the assessment by human eyes. This methodology provides a quantitative measure of mar that correlates well with “human perceptions through visualization”. This method of mar surface analysis can be a potential methodology employed to investigate the fundamental structure-property relationship between polymer material properties and mar behavior.

Clear Impact Co-Polymers For Thermoforming
Kevin Herrington, May 2018

A new technology from Braskem extends the use of clear polypropylene to thermoformed containers for refrigerated conditions. Typical clear polypropylenes have poor impact properties at low temperature. Polypropylene impact copolymers have greatly improved impact properties compared to polypropylene homopolymers and random copolymers but are opaque. This work explores what causes haze in thermoformed polypropylene impact copolymers, how that haze can be improved, and how Braskems new impact copolymer compares to conventional impact copolymers, random copolymers, and with blends.

Processing Parameters Effect On Barrier Properties Of Nitrile Based Nanocomposite Membrane
Mohamed Zemzem, May 2018

The influence of processing parameters on barrier properties of nanocomposites was investigated. Elastomer nanocomposites consisting of nitrile rubber latex and clay nanoparticles were prepared by three techniques: Chemical dissolution, melt-mixing in an internal mixer and extrusion. Resistance to methanol were assessed using gravimetric method. It was observed that extruded material exhibited the highest chemical resistance. Small-angle X-ray scattering patterns indicated that this improvement was due to nanoparticle orientation in the structure. With the other techniques, a neat enhancement of solubility was spotted over the pure rubber. X-ray diffraction results related this aspect to the delamination of the clay nanoparticles. Moreover, when melt-mixing was adopted, improvements were also recorded proportionally to the increase of the torque as well as the residence time inside the mixer.

Active Packaging Film To Extend Shelf-Life Of Fresh Poultry
Ankush Gokhale, May 2018

A system comprising an antimicrobial compound, an interfacial agent and a vinyl acetate copolymer augments an oxygen barrier package to provide a viable active packaging solution to extend the shelf-life of poultry products. Fresh poultry is a perishable product with a short shelf-life. An antimicrobial-incorporated active packaging film can extend the shelf-life of poultry products and reduce retail and customer shrink substantially. This work provides an overview of the various factors that affect the shelf-life of poultry products, discusses the role of potassium sorbate as an effective antimicrobial agent, and elucidates its incorporation into and release kinetics from the package’s food contact layer.

Quantitative Characterization And Modeling Of Thin Film Conformability
Haiying Zhang, May 2018

In this paper we present a brief review of large body of publications related to conformability of multilayer system. Conformability of thin film with a curved geometry substrate on which the film is applied is commonly manifested in formation of blisters, wrinkles and other forms of delamination. The delamination is driven by elastic energy of thin film associated with the film deformation required by film application. A simple method of observation and quantitative characterization of delamination and its evolution in time is proposed. A continuous growth of delamination over many hours is observed on a number of plastic films. The time dependency of delamination results from an interplay between the stress relaxation within the film and viscous flow of adhesive that support the film deformation. Thus, the conformability of multilayer system is characterized by a combination of the film rigidity and relaxation as well as the time dependent strength of adhesive. A design of conformability tester, measurements of delamination growth, modeling of the observed process and an algorithm for quantitative characterization of delamination are presented. A practical application of the conformability tester is illustrated by ranking of a number of thin plastic films with respect to conformability.

Composition Dependent Charge Storage And Emi Shielding Performance Of Thermoplastic Elastomer Nanocomposites Containing Mwnts
Uttandaraman Sundararaj, May 2018

This study demonstrates the charge storage and electromagnetic interference (EMI) shielding performance of thermoplastic polyurethane (TPU) based nanocomposites containing various amounts of conducting multiwall carbon nanotubes (MWNTs). The functional properties of TPU nanocomposites were systematically designed by generating various degrees of interconnected networks of MWNTs in the TPU matrix. The dispersion and interconnected networks of MWNTs were assessed using rheology and direct current (DC) conductivity measurements. An enhanced charge storage (i.e., high real permittivity) and extremely small loss (i.e., loss tangent) were achieved at a low fraction of MWNTs (5.0wt%) in X-band frequency, whereas, large elimination of incoming microwave radiation was achieved via highly interconnected networks of dielectrically lossy MWNTs.

Innovation In Mature Markets: Understanding Global Trends Across The Value Chain Key And Accelerating Development
Narayan Ramesh, May 2018

Markets trends of cost reduction, sustainability & down-gaging drive the need for new and improved products. Development of such products requires a look across the entire value chain – an Asset to Market look. An emerging trend in the materials space is related to collection and management of data that enables knowledge creation. Management of this data and the knowledge generated is critical to accelerating research. This talk will focus on what is required for rapid product development, launch and knowledge transfer across a global organization to sustain market leadership. Key examples will be presented and will cover these trends.

Ways To Enhance Thermoelectric Properties Of Melt Mixed Polypropylene-Carbon Nanotube Composites
Petra Pötschke, May 2018

Melt-mixed polypropylene (PP) composites with singlewalled carbon nanotubes (SWCNTs ) were used as thermoelectric materials which can convert a temperature difference between the two sides of the material into a thermovoltage. The effect of SWCNT content on Seebeck coefficient (S), electrical conductivity, and power factor was studied. In order to enhance these values for p-type composites, several strategies were applied. These involve (a) variation of the SWCNT modification, (b) incorporation of a high S copper oxide, (c) variation of melt-mixing conditions, and (d) addition of an ionic liquid. To generate n-type composites, additives like polyethylene glycol (PEG) and a non-ionic surfactant polyoxyethylene 20 cetyl ether were simply added during the melt-mixing procedure, inducing a switching from positive to negative S values in the pressed films. Finally, two prototype thermoelectric generators using both, p- and n-type PP based materials, could be manufactured.

Exploiting Capillary Forces In Filled Plastics: Electrically Conductive Plastics By Bonding Copper Filler With Molten Solder
Sachin Velankar, May 2018

We test whether the electrical conductivity of copper-polystyrene composites can be improved by adding a metal solder alloy during blending. Copper-in-polystyrene composites prepared by melt-blending have poor electrical conductivity. Addition of a flux (a compound commonly used in soldering) during blending is found significantly to improve the conductivity. A further large increase in conductivity was obtained by adding molten solder during composite preparation. The mechanism of this improvement is that the solder bonded the copper particles together into large aggregates that percolated throughout the sample. We examined the effects of the volume ratio of solder to copper particles on electrical conductivity and the composite morphology. If sufficient solder was added, the copper particles become welded together by the solder to form a self-supporting metal network, and a conductivity of ~500 S/m was realized at a metal loading of only 20 vol%. With insufficient solder, large but non-percolating structures of solder-bound copper particles appeared, and the corresponding blends had lower conductivity. While most of the samples were prepared by hand-blending, we verify that the same approach of improving conductivity can be applied using a Brabender batch mixer.

Understanding The Deformation Behavior Of Nanocomposites With Discrete Carbon Nanotubes
Clive Bosnyak, May 2018

This paper will first address the general challenges of dispersing discrete multiwall carbon nanotubes in polymers followed by detailed morphological and tensile deformation studies of polyvinylidene fluoride blends with carbon black and discrete carbon nanotubes, commercially available as MOLECULAR REBAR®. The specific carbon nanotubes employed here are about 13nm in diameter and about 900nm in length. In thermoset, or materials which fail in a brittle mode, the discrete carbon nanotubes show improved crack initiation and propagation resistance via a crack pinning mechanism. In ductile, or elastomeric materials the tubes are seen to align with the principal stretch direction. In semi-crystalline materials the carbon nanotubes may act as crystal nucleators, but are small enough to be able to be excluded from crystal domains as they form. This crystallization behavior with discrete nanotubes results in quite complex structures, highly dependent on fabrication processes. The ability to control the structure and placement of discrete carbon nanotubes creates new opportunities for advanced materials.

Self-Sterilizing Packaging For Medical Devices
Rishabh Jain, May 2018

The use of a self-sterilizing package that can sterilize its contents ‘on-demand’ when triggered by specific stimuli (such as ultraviolet energy (UV)) can provide a novel method for medical device sterilization that is faster, safer and more cost-effective than conventional methods in use today. We describe the development of a self-sterilizing package which can release ClO2 gas as a sterilant when triggered with UV light to sterilize medical devices packaged inside. We discuss the scheme of operation of such a package, gas release characteristics, sterilization efficacy, post-sterilization residuals and material-sterilant compatibility. We demonstrate that a sterilization assurance level of 10-6 can be achieved within such a package.

Flow Problems That Could Arise From Adding Biomass Materials To Plastics
Carrie Hartford, May 2018

In an effort to become more “green” in the plastics world, engineers are developing unique products by adding biomass materials to create bio-friendly plastics. The biomass additives may have a different aspect ratio, size, compressibility or density than the pellets and powders but they all must come together in a uniform, consistent, reliable flow into the extruder. Understanding the implications to the handling of adding a new biomass material to a blend is critical for the success of the product. Taking a scientific approach to understanding the flowability of a component and blend is critical to ensuring a successful outcome. Often, this approach results in either making a change to the equipment that the material is handled in to support the new blend, or to making a change in the material or blend (or the conditions at which it is handled) to flow through the existing equipment.

Prediction Of Fiber Reinforced Plastics Considering Local Fiber Length And Orientation
Fabian Willems, May 2018

The gaining importance of sustainability in recent years has also led to a closer look on lightweight materials such as fiber reinforced plastics. However, these materials usually pose a challenge in application. Purposeful virtual engineering and prediction is part of it. A new approach allows the reliable prediction of discontinuous fiber reinforced plastics based on integrative simulations while taking local fiber orientation and local fiber length into account. The results obtained with this method already show an improvement in prediction of simple part geometries. Further gain in quality is expected by complex parts where fiber orientation distribution and fiber length distribution spread more widely.

Characterization Of Scratch Behaviors Of Multilayer Automotive Coatings For Various Scratch Conditions
sung wook moon, May 2018

Vehicles confront damages and breakdown caused by various factors under working condition. The most common type of the failure is scratch. External particles such as small pebbles pop up and cause physical damages on the surface of the vehicle. It is not desirable in the aesthetic point of view. Clear-coat layer, which is on the top of the painted surface, is directly affected by scratch. To evaluate the scratch characteristics of the coatings of passenger vehicles, we conducted scratch tests using ASTM D7027 standard. Through the experiments, we obtained scratch properties of various coatings. Using the results, scratch-resistant clear-coat will be developed.

The Relationship Between Structure And Thermal And Mechanical Properties Of Thermoplastic Polyester Materials
Jeffrey Jansen, May 2018

Three different thermoplastic polyester materials were evaluated to investigate the connection between the structure of the materials and their properties. Three materials representing distinct characteristic structures were selected to contrast the results. The resins evaluated included polycarbonate, with carbonate ester functionality; poly(ethylene –co- 1,4-cyclohexanedimethylene terephthalate), a poly(ethylene terephthalate) copolymer; and poly(ethylene naphthalate), with two condensed aromatic rings. The characteristics tested as part of this work included tensile properties to illustrate the short-term mechanical attributes, glass transition temperatures to represent the thermal response of the materials, and creep modulus to demonstrate the time dependency.

Impact Of Plastics Packaging On Life Cycle Impacts In The U.S. And Canada Substitution Analysis
Emily Tipaldo, May 2018

Prepared by Franklin Associates for the American Chemistry Council, this study expands upon the 2014 substitution analysis that used life cycle assessment methodology to assess the energy consumption and greenhouse gas (GHG) emissions of six general categories of plastic packaging produced and sold in North America relative to alternative packaging. The updated analysis includes other life cycle impacts - including but not limited to solid waste generation and consumptive water use, as well as updated energy and GHG results. This presentation will answer the question: if plastic packaging were replaced with alternative types of packaging, how would life cycle impacts, such as energy consumption, water use, and waste generation, be affected?

Crystallization Mechanism Of Polyvinylidene Fluoride Via Non-Isothermal Crystallization And Supercritical Co2 Processing
Ji Eun Lee, May 2018

Polyvinylidene fluoride (PVDF) is a non-toxic, conformable, and low-cost alternative to traditional piezoelectric ceramic in sensors and actuators. While fabrication methods such as mechanical stretching are commonly used, a combination of non-isothermal processing and supercritical carbon dioxide (ScCO2) processing has been used to successfully promote the electroactive phase (i.e., α, β, and γ phases) of PVDF. In this paper, this processing method was further analyzed by decoupling the manufacturing process into individual steps to elucidate the processing-to-structure properties and mechanisms that affect the crystallization behaviors of the electroactive phases. Differential scanning calorimetry, scanning electronic microscopy, and infrared spectroscopy were utilized to study the crystallization of the polymorph phases. Experimental results further supported our findings on the formation of γ crystal phase and its inverse relationship to β crystal phase. The results were revealed to be comparable to the mechanical stretching method with a maximum electroactive crystal phase of 72.2%.

Biomimetic Nanocoatings With Exceptional Mechanical, Barrier, and Flame Retardant Properties From Large Scale One-Step Co-assembly
Jingjing Liu, May 2018

Large-scale biomimetic organic/inorganic hybrid nanocoatings with a nacre-like microstructure were prepared via a facile co-assembly process. Different from conventional polymer nanocomposites, such nanocoatings contain a high concentration of nanosheets, which can be well aligned along the substrate surface. Moreover, the nanosheets and polymer matrix can be chemically co-crosslinked. As a result, the nanocoatings exhibit exceptional mechanical properties (high stiffness and strength), barrier properties (to both oxygen and water vapor), and flame retardancy, but meanwhile, they are highly transparent (maintaining more than 85% of their original transmittance to visible light). The nanocoatings can be applied to various substrates and regular or irregular surfaces (e.g., films as well as foams). Because of their excellent performance and high versatility, such nanocoatings are expected to find widespread application.

Practical Simulation Of Liquid Crystal Polymer Directionality During Processing
Anthony Sullivan, May 2018

Liquid crystal polymers (LCP’s) make up a class of performance materials that derive favorable mechanical, chemical, and electrical characteristics from their long-range molecular ordering. This unique microstructure gives rise to anisotropic bulk behavior that can be problematic for industrial applications, and thus the ability to model this directionality is essential to the design of manufacturing processes for isotropic material production. Previous efforts to model LCP orientation have typically been restricted to structured grids and simple geometries that demonstrate the underlying theory, but fall short of simulating realistic LCP manufacturing methods. In this investigation, a methodology is proposed to simulate the director field in practical LCP process geometries for the prediction of the bulk material orientation state. The polymer flow is first simulated using a commercial CFD software and the rheological results are input into post-processing calculations of the polymer directionality. It is shown that the model predicts the expected change in anisotropy as the mold cavity thickness is changed for an LCP injection molding process.

Effect Of Annealing On The Viscoelastic Behavior Of Poly(Ether-Ether-Ketone)
Zhiyuan Jiang, May 2018

The influence of annealing on the viscoelastic behavior of poly(ether-ether-ketone) (PEEK) was investigated. The effect of annealing at different temperatures on the crystallinity of PEEK was characterized using differential scanning calorimetry. This effect on the viscoelastic behavior of PEEK was further studied using dynamic mechanical analysis. The master curves were generated for creep and stress relaxation measurements at temperatures below Tg and subsequently a physics-based model was employed to predict the long-term viscoelastic behavior of PEEK within this temperature window of interest. The results indicated that annealing increased the degree of crystallinity and increased the activation energy of β-relaxation (Eβ), which correlates to the molecular motions below Tg and explains why the creep and stress relaxation slowed down after annealing. The modeling results also suggested a higher degree of restriction on the molecular mobility, which is consistent with Eβ results obtained from DMA.







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