Wednesday, March 8, 2023
8:00AM - 8:12AM
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M15.00001: Nonlinear Network Deformation and Loop Effect
Yuan Tian, Michael S Jacobs, Andrey V Dobrynin
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Wednesday, March 8, 2023
8:12AM - 8:24AM
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M15.00002: Effect of Penetrant Volume on Diffusion in Dense Crosslinked Networks
Tsai-Wei Lin, Charles E Sing
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Wednesday, March 8, 2023
8:24AM - 8:36AM
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M15.00003: Effect of Crosslink Homogeneity on the Mechanochemical Activation of Elastic Polymer Networks
Victoria Kong, Jennifer E Laaser
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Wednesday, March 8, 2023
8:36AM - 8:48AM
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M15.00004: Bond Compression upon Chain Extension
Liel Sapir, James Brock, Danyang Chen, Qi Liao, Sergey Panyukov, Michael Rubinstein
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Wednesday, March 8, 2023
8:48AM - 9:00AM
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M15.00005: Competition Between Phase Separation and Photopolymerization Kinetics During Polymeric Network Development
Lauren A Zakrzewski, Yeongsik Kim, Younghan Song, Chang Y Ryu, Chulsung Bae
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Wednesday, March 8, 2023
9:00AM - 9:12AM
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M15.00006: Network Structure Influences Bulk Modulus of Nearly Incompressible Rubbery Polymers
Christopher W Barney, Olivia G Long, Matthew E Helgeson, Megan T Valentine
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Wednesday, March 8, 2023
9:12AM - 9:48AM
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M15.00007: Theory of structural relaxation and vitrification in permanent and associating polymer networks
Invited Speaker:
Ken S Schweizer
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Wednesday, March 8, 2023
9:48AM - 10:00AM
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M15.00008: Competing Effects of Molecular Additives and Cross-link Density on the Segmental Dynamics and Mechanical Properties of Crosslinked Networks
Wenjian Nie
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Wednesday, March 8, 2023
10:00AM - 10:12AM
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M15.00009: Effective Medium Theory for Mechanical Phase Transition of Fiber Networks
Sihan Chen, Tomer Markovich, Frederick C MacKintosh
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Wednesday, March 8, 2023
10:12AM - 10:24AM
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M15.00010: Role of terminal groups of cis-1,4-polyisoprene in the formation of physical cross-linking in NR --- All-atom simulation study ---
Takashi Taniguchi, Mayank Dixit
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Wednesday, March 8, 2023
10:24AM - 10:36AM
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M15.00011: Discrete polymer network models for stimuli-responsive, biological, and curing networks via free energy minimization over rotations
Matthew J Grasinger
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