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Poly ethylene terphthalate

Flernia mesh 1944 1 000 000+ Polypropylene or poly(ethylene terphthalate)... [Pg.398]

Kulesza, K. German, K. Chlorinated pyrolysis products of co-pyrolysis of poly(vinyl chloride) and poly(ethylene terphthalate). J. Anal. Appl. Pyrol. 2003, 67, 123-134. [Pg.1859]

High-energy solids such as glass and poly(ethylene terphthalate) have high critical surface tensions (y. > 40 mN m ). Lower energy solids such as polyethylene have lower ( 31 mN m ). TTie same applies to hydrocarbon surfaces such as paraffin wax. Very low energy solids such as PTFE have lower y, of the order of... [Pg.350]

Figure 3. These images represent the types of structural and chemical information that can be obtained using the OCM-CFM dual-mode technique (a,), CARS (b.f and immersive visualization (cf The OCM-CFM images (a) are of fetal chick osteoblasts cultured on porous polycaprolactone scaffolds. Differences in pore size and crystalline regions of the polymer could be determinied at 145 pm from the surface. Figure b is a broadband CARS micrograph of a phase-separated ternary polymer blend. The colors green, blue, and red represent polystyrene, poly(ethylene terphthalate) and poly(methyl methacrylate), respectively. Figure c is a 3D respresentation of cells on polycaprolactone scaffold taken from the immersive visualization laboratory. This visual image provides additional information on cell shape, orientation, and position within the scaffold. Figure 3. These images represent the types of structural and chemical information that can be obtained using the OCM-CFM dual-mode technique (a,), CARS (b.f and immersive visualization (cf The OCM-CFM images (a) are of fetal chick osteoblasts cultured on porous polycaprolactone scaffolds. Differences in pore size and crystalline regions of the polymer could be determinied at 145 pm from the surface. Figure b is a broadband CARS micrograph of a phase-separated ternary polymer blend. The colors green, blue, and red represent polystyrene, poly(ethylene terphthalate) and poly(methyl methacrylate), respectively. Figure c is a 3D respresentation of cells on polycaprolactone scaffold taken from the immersive visualization laboratory. This visual image provides additional information on cell shape, orientation, and position within the scaffold.
Dielectric measurements (relative dielectric constants, dielectric strength and dielectric loss factor) have been made for photodegraded polyethylene [1284], polystyrene [840, 2227, 2228, 2248] poly(ethylene terphthalate) [1040], polyamides and polyimides [120] and polycarbonates [1738]. [Pg.560]

Hu, L.-C. Oku, A. Yamada, E. Tomari, K. Alkali-Decomposition of Poly(ethylene terphthalate) in Mixed Media of Nonaqueous Alcohol and Ether. Study on Recycling of Poly(ethylene terephthalate). Polym. J. 1997, 29, 708-712. [Pg.30]

Goje, A.S. Diware, V.R. Patil, T.M. Mishra, S. Microkinetics and Mass Transfer Study of Treatment of Aqueous and Alcoholic Potassium Hydroxide on Poly(Ethylene Terphthalate) Waste. Polymer-Plastics Technology and Engineering. 2004, 43, 889-912. [Pg.30]

Yamamoto, S. Method and apparatus for recovering of monomers from waste poly(ethylene terphthalate). Japanese Patent JP 9,077,905. [Pg.31]

See other pages where Poly ethylene terphthalate is mentioned: [Pg.784]    [Pg.515]    [Pg.275]    [Pg.553]    [Pg.634]    [Pg.2535]    [Pg.804]    [Pg.334]    [Pg.381]    [Pg.278]    [Pg.2757]    [Pg.203]    [Pg.4]    [Pg.397]    [Pg.754]    [Pg.784]    [Pg.515]    [Pg.275]    [Pg.553]    [Pg.634]    [Pg.2535]    [Pg.804]    [Pg.334]    [Pg.381]    [Pg.278]    [Pg.2757]    [Pg.203]    [Pg.4]    [Pg.397]    [Pg.754]   


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