Kinetics and mechanisms of fatigue damage in rubber-toughened poly(methyl methacrylate) (RTPMMA)

## Abstract The microstructure of a series of injection‐molded and extruded rubber–toughened poly(methyl methacrylate) (RTPMMA) samples was investigated. Atomic force microscopy (AFM) and ultrasonic force microscopy (UFM) were used to study surface topography and local elastic properties. AFM topog

Core-shell composite particles were prepared by a heterocoagulation and annealing process, in which control of the number of chemical linkages in the interfacial zone without changing other properties was possible using Ðve kinds of small size shell particles (SP) with di †erent carboxyl charge dens

The mechanical properties and fracture behavior of natural rubber /poly-( methyl methacrylate ) blends were investigated as a function of composition, graft copolymer concentration, and mixing conditions. The mechanical properties and failure behavior vary with the blend ratio, graft copolymer conce

Two-and three-layer composite latex particles were used to prepare rubbertoughened poly(methyl methacrylate) (RT-PMMA). The interfacial thicknesses of the multilayered particles were varied by using different emulsion polymerization synthesis techniques. The resulting interphases were previously cha

The dynamic mechanical and thermal properties of natural rubber/poly (methyl methacrylate) blends (NR/PMMA) with and without the addition of graft copolymer (NR-g-PMMA) have been investigated. Dynamic mechanical spectroscopy is used to examine the effect of compatibilizer loading on storage modulus