Computer simulation of conic-shaped patterns on fracture surfaces of polymers

Three phenomenological yield criteria are adopted to describe the plastic behaviour of sheet metals with normal plastic anisotropy. The sheet metals are assumed to be elastic-plastic, rate-sensitive and incompressible. A rate-sensitive thin shell ÿnite element formulation based on the virtual work p

Heating bioabsorbable fracture fixation plates to above their glass transition temperature renders them temporarily malleable, thus facilitating their adaptation to the underlying bone geometry, although the consequence of heating is not well understood. Poly(L-lactide-co-glycolide) copolymer specim

The exchange kinetics of polymers adsorbing on a solid surface is extensively studied by dynamic Monte Carlo simulations. A model employed simulates a semidilute polymer solution placed in contact with a solid surface that attracts polymer segments by the adsorption interaction (v s ). The exchange

**A maskless method for patterning substrates** using surface relief structures on azobenzene‐functionalized polymer is demonstrated. Surface relief structures are inscribed on a polymer film spin‐coated on an indium tin oxide (ITO) substrate by exposure to an interference pattern. Etching with oxyg