Bingyan Jiang

TL;DR: In this paper, a molecular dynamics method was used to study the interfacial interaction and joining property of polymer-metal hybrid structures, and the influences of surface structure, non-bonded interaction strength, and pull-out force during the separation were systematically explored.

TL;DR: In this paper, a surface approach to fabricate high aspect ratio nanopillars and micro/nano combined structures was presented, where anodic aluminum oxide template and etched plate were used for mold insertion.

TL;DR: In this paper, a comparison of processes and wettability characteristics was presented for injection molded superhydrophobic polypropylene surfaces from two fabricating strategies: biomimetic replication of patterns from indocalamus leaf in nature, and fabrication of super hydrophobic structure by combining methods that produce structures at different length scales.

TL;DR: The results from both numerical simulation and experimentation indicate that the heat generation rate of viscoelastic heating can be significantly influenced by the initial temperature of polymer, and the glass transition temperature was found to be a significant shifting point in viscoELastic heating.

TL;DR: Simulation results reveal that PP molecules move easily to fit tensile deformation at higher temperatures, resulting in a lower interfacial strength of glass fiber–PP interface.