Power law relaxation in an interpenetrating polymer network

Prevalence of patterned microstructures in interpenetrating polymer networks is well documented experimentally. Thermodynamic theories explaining this feature nonetheless have not been forthcoming. These enmeshed structures carry elastic energy and elevate in the thermodynamic limit the free energy

## Abstract α,ω‐Acrylate terminated poly(1,3‐dioxolane) (polyDXL) was copolymerized with methyl acrylate and methyl methacrylate for the synthesis of block copolymer networks. It was shown by dynamic mechanical thermal analysis (DMTA) that the presence of covalent bonds between poly DXL and the pol

## Abstract We review the synthesis, morphology, and physical and mechanical properties of IFNs as well as the related pseudo‐IPNs, in which only one of the polymers is crossliriked. Recent studies have shown that the degree of phase separation achieved in these materials is strongly dependent on t

Traditional and gradient interpenetrating polymer networks (IPNs) of various composition have been prepared on the basis of crosslinked siliceous polyurethane and a copolymer of butylmethacrylate and dimethacrylate triethylene glycol. For various layers of gradient IPNs cut from the surface to the c