Description
Book SynopsisA summary of block copolymer chemical structures and synthesis. It discusses physical methods of characterization such as computer simulation, microhardness, dielectric spectroscopy, thermal mechanical relaxation, ultrasonic characterization, transmission electron microscopy, X-ray scattering, and NMR, among others. It also outlines rheological and processing parameters in the multiphase polymer systems with stable microstructures.
Trade Review". . .contain[s] a good amount of useful information and a number of well-written papers on current subjects of interest in the field and is worthy of review by those involved in the filed of block copolymers. . ..recommended."
---Polymer News, 2000
"...There are few texts that cover this technology separately, more importantly few which cover it thoroughly, which makes it a valuable reference text. HIGHLY RECOMMENDED."
---Adhesives & Sealants Newsletters, 2001
Table of ContentsIntroduction and plan. Methacrylate butadiene-based triblock copolymers - synthesis, characterisation, and properties; block copolymers with polyethers as flexible blocks; new multiblock terpoly (ester-ether-amide) with various chemical constitutive amide blocks; copolymers poly (eta-caprolactam)-block-(butadiene containing elastomers); dynamics and viscoelastic effects in block copolymers - real and simulated systems; structure - microhardness correlations in condensation copolymers; correlation between phase behaviour, mechanical properties, and deformation mechanisms in weakly segregated block copolymers; ultrasonic characterisation of block copolymers; dielectric relaxation of block copolymers; polymer blends with block copolymers; two multiblock copolymer blends; multiblock copolymer/homopolymer blends; structure and melt rheology of block copolymers; orientation behaviour in axial tension of half-melt poly (ether-beta-ester) copolymers; polyurethane grafted onto styrene sulfonic acid copolymers; poly (esther-ester) block copolymers with LC segments; triblock copolymers for toughness modification of immiscible engineering polymer blends; poly (esther-beta-ester) copolymers, blends, composites, and their applications; future trends in block copolymers.
