Joshua A. Orlicki scite author profile

High shear stresses are known to trigger destructive bond-scission reactions in polymers. Recent work has shown that the same shear forces can be used to accelerate non-destructive reactions in mechanophores along polymer backbones, and it is demonstrated here that such mechanochemical reactions can be used to strengthen a polymer subjected to otherwise destructive shear forces. Polybutadiene was functionalized with dibromocyclopropane mechanophores, whose mechanical activation generates allylic bromides that are crosslinked in situ by nucleophilic substitution reactions with carboxylates. The crosslinking is activated efficiently by shear forces both in solvated systems and in bulk materials, and the resulting covalent polymer networks possess moduli that are orders-of-magnitude greater than those of the unactivated polymers. These molecular-level responses and their impact on polymer properties have implications for the design of materials that, like biological materials, actively remodel locally as a function of their physical environment.

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Fatty acid-based monomers as styrene replacements for liquid molding resins

Scala

Sands

Orlicki

et al. 2004

Polymer

164

203

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Cellulose nanocrystals as a reinforcing material for electrospun poly(methyl methacrylate) fibers: Formation, properties and nanomechanical characterization

Dong

Strawhecker

Snyder

et al. 2012

Carbohydrate Polymers

199

118

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The use of bimodal blends of vinyl ester monomers to improve resin processing and toughen polymer properties

Scala

Orlicki

Winston

et al. 2005

Polymer

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Impact of Stereo- and Regiochemistry on Energetic Materials

et al. 2019

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The synthesis, physical properties, and calculated performances of six stereo-and regioisomeric cyclobutane nitric ester materials are described. While the calculated performances of these isomers, as expected, were similar, their physical properties were found to be extremely different. By alteration of the stereo-and regiochemistry, complete tunability in the form of low-or high-melting solids, stand-alone melt-castable explosives, melt-castable explosive eutectic compounds, and liquid propellant materials was obtained. This demonstrates that theoretical calculations should not be the main factor in driving the design of new materials and that stereo-and regiochemistry matter in the design of compounds of potential relevance to energetic formulators.

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Joshua A. Orlicki

Mechanochemical strengthening of a synthetic polymer in response to typically destructive shear forces

Fatty acid-based monomers as styrene replacements for liquid molding resins

Cellulose nanocrystals as a reinforcing material for electrospun poly(methyl methacrylate) fibers: Formation, properties and nanomechanical characterization

The use of bimodal blends of vinyl ester monomers to improve resin processing and toughen polymer properties

Impact of Stereo- and Regiochemistry on Energetic Materials

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