Search

Your search keyword '"Macosko, Christopher W."' showing total 772 results
Start Over Author "Macosko, Christopher W."
772 results on '"Macosko, Christopher W."'

1. Interfacial silica nanoparticles stabilize cocontinuous polymer blends

Author

Bai, Lian, Fruehwirth, John, Cheng, Xiang, and Macosko, Christopher W.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We investigated the formation of cocontinuous structures in polymer blends. These polymeric bijels (bicontinuous interfacially jammed emulsion gels) were composed of polystyrene oligomer, polybutene and fluorescent hydrophobic silica nanoparticles. A micron-sized cocontinuous morphology was stabilized by a monolayer of silica nanoparticles at the interface. Real-time observation of coalescence dynamics in co-continuous polymer blends stabilized by interfacial particles was for the first time achieved via laser scanning confocal microscopy. We demonstrated that suppression of coalescence arises from coverage of interfaces by nanoparticles. Furthermore, by combining confocal microscopy with rheology, we correlated the rheological response of a cocontinuous structure with its morphology change. We found that the rheological behavior can be attributed to competition between interface shrinkage and particle network formation. In addition, we showed that a particle scaffold is maintained even after the remixing of two polymer phases above the spinodal point. Finally, we also discussed differences between the shear response of the particle-stabilized cocontinuous structure and normal colloidal gels: the former one is more fragile than the latter under shear.

Published
2015

8. Polymer Day: Outreach Experiments for High School Students

Author

Ting, Jeffrey M., Ricarte, Ralm G., Schneiderman, Deborah K., Saba, Stacey A., Jiang, Yaming, Hillmyer, Marc A., Bates, Frank S., Reineke, Theresa M., Macosko, Christopher W., and Lodge, Timothy P.

Abstract

We present a collection of hands-on experiments that collectively teach precollege students fundamental concepts of polymer synthesis and characterization. These interactive experiments are performed annually as part of an all-day outreach event for high school students that can inform the development of ongoing polymer education efforts in a university setting. The Advanced Polymer Synthesis experiment aims to introduce broad concepts of polymer synthesis. Techniques such as ring-opening polymerization are explained and demonstrated. The Block Polymer Micellization experiment extends this idea to block polymers for drug delivery applications. Students are taught the idea of self-assembly and prepare micelles to encapsulate ß-carotene in water with flash nanoprecipitation. In terms of materials characterization, the vast physical properties space of polymers is explored. The Happy-Sad Spheres experiment provides an interactive demonstration of the glass transition temperature, while the Polymer Swelling/Rheology experiment features the interesting properties of cross-linked and entangled polymers. Evaluation surveys showed positive feedback from students in learning polymer concepts through this program. Overall, the simple principles taught by these outreach experiments can be easily incorporated into modern laboratory curricula with broad implications for disseminating public knowledge and promoting continued interest in polymer science and engineering.

Published
2017
Full Text
View/download PDF

13. Toughening Polylactide With a Catalyzed Epoxy-Acid Interfacial Reaction

Author

Thurber, Christopher, Gu, Liangliang, Myers, Jason C., Lodge, Timothy P., and Macosko, Christopher W.

Subjects
Lactic acid -- Mechanical properties -- Production processes -- Methods, Curing -- Methods -- Mechanical properties, Engineering and manufacturing industries, Science and technology
Abstract

Polylactide (PLA) is a promising material, with favorable modulus, renewable sources, and biodegradability. However, its low extension at break (4-7%) and toughness (notched Izod, 26 J/m) limit its applications (Anderson et al., Polym. Rev., 48, 85 (2008)). PLA toughening has been the subject of recent reviews, and is the basis for several commercial products. This work aims to increase PLA toughness using rubbery, linear low-density polyethylene (LLDPE), glycidyl methacrylate functional PE compatibilizer (EGMA), and novel catalysts that promote copolymer formation at the interface of immiscible blends of PLA and EGMA/LLDPE. Droplet size was reduced from 2.7 [micro]m to 1.7 [micro]m with addition of 5 wt% EGMA, and further to 1.0 [micro]m with the addition of cobalt octoate catalyst. Extension at break of 200% is achieved with only 5 wt% EGMA, 15 wt% LLDPE, and 0.01 M cobalt octoate, leading to an increase in tensile toughness of over an order of magnitude (compared to neat PLA). This work demonstrates that catalysts can reduce the amount of reactive compatibilizer necessary to achieve a given PLA toughness. POLYM. ENG. SCI., 58:28-36, 2018., INTRODUCTION There are many approaches to toughening polylactide (PLA), but one of the most prevalent and economical methods is reactive blending with an immiscible minority rubbery component [1-8]. A similar [...]

Published
2018
Full Text
View/download PDF

18. Extensional rheometry via flow through an abrupt contraction: A short review.

Author

Macosko, Christopher W.

Subjects
*PRESSURE drop (Fluid dynamics), *ADHESIVES, *COMPLEX fluids, *POLYMER melting, *FLOW measurement, *HOT melt adhesives, *RHEOMETERS
Abstract

This review assesses the advantages and limitations of extensional rheometry using flow through an abrupt contraction. Analyses used to estimate extensional viscosity from entrance pressure drop and flow rate measurements are reviewed. These are compared with each other and to results from other extensional rheometers. A great advantage of entrance flow extensional rheometry is that it is perhaps the easiest method to obtain extensional data, especially with complex and industrial fluids such as hot melt adhesives, dough, emulsions and polymer melts, since it is readily adapted to standard capillary rheometers. Disadvantages are that the flow is not homogeneous and shear is always present. Nonetheless, pressure drop through an abrupt contraction can be especially useful in quickly ranking extensional effects between different material formulations. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

23. Evaluating sag resistance with a multinotched applicator: correlation with surface flow measurements and practical recommendations

Author

Lade, Jr., Robert K., Musliner, Austin D., Macosko, Christopher W., and Francis, Lorraine F.

Subjects
Paint -- Analysis -- Chemical properties, Coatings -- Analysis -- Chemical properties, Metals, metalworking and machinery industries
Abstract

Abstract Sag is a coating defect that results from excessive, gravity-driven flow after deposition. Accordingly, characterizing resistance to sag is critically important. In this paper, sag resistance predicted using a [...]

Published
2015
Full Text
View/download PDF

46. Microscopy

Author

Dehonor, Mariamne, primary, López-Barrón, Carlos, additional, and Macosko, Christopher W., additional

Published
2013
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results