Javascript must be enabled to continue!

Effect of temperature on gas permeation of polymer blends. I. Poly(ethylene oxide)/copolyester–polyurethane

AbstractThe transport behavior of H2, N2, and CO2, was studied for blends of poly(ethylene oxide) (PEO) with a copolyester–polyurethane (PU) at various temperatures from 20 to 80°C. It was found that there was an abrupt change in slope or discontinuity around the melting point of PEO in Arrhenius plot of the permeability vs. temperature. The relationships between the logarithms of gas permeability and blend composition were strongly dependent on the temperature and showed very different shapes at temperature below and above the melting point of PEO. The activation energy of gas permeation for the blends had different values below and above the melting temperature of PEO.

Wiley

Guo Qipeng Xu Hechang Ma Dezhu

Journal of Applied Polymer Science

2003

Title: Effect of temperature on gas permeation of polymer blends. I. Poly(ethylene oxide)/copolyester–polyurethane

Description:

AbstractThe transport behavior of H2, N2, and CO2, was studied for blends of poly(ethylene oxide) (PEO) with a copolyester–polyurethane (PU) at various temperatures from 20 to 80°C.

It was found that there was an abrupt change in slope or discontinuity around the melting point of PEO in Arrhenius plot of the permeability vs.

temperature.

The relationships between the logarithms of gas permeability and blend composition were strongly dependent on the temperature and showed very different shapes at temperature below and above the melting point of PEO.

The activation energy of gas permeation for the blends had different values below and above the melting temperature of PEO.

Back

AbstractThe transport behavior of H2, N2, CO2 was studied for blends of an aliphatic copolyester with a copolyester‐polyurethane (PU) at various temperatures from 20 to 80°C. It wa...

Barrier Polymers

AbstractBarrier polymers are used for many packaging and protective applications. As barriers they separate a system, such as an article of food or an electronic component, from an...

Barrier Polymers

AbstractBarrier polymers are used for many packaging and protective applications. As barriers they separate a system, such as an article of food or an electronic component, from an...

Montmorillonite-reinforced nanocomposite from off-grade plastics materials using response surface analysis

Off-grade thermoplastic poly(ethylene terephthalate) of industrial manufacturers was partially depolymerized to synthesize poly(ethylene terephthalate) oligomers. Influences of rea...

Nanogold and nanosilver hybrid polymer materials

<p>Significant opportunities exist in both the scientific and industrial sectors for the development of new generation hybrid materials. These multifunctional hybrid material...

Controlling Ethylene Responses in Horticultural Crops at the Receptor Level

Ethylene is a plant hormone that controls many plant responses, such as growth, senescence, ripening, abscission and seed germination. Recently, 1-methy- cyclopropene (1-MCP), was ...

Polymer Brushes Derived from Polymer Single Crystals

Polymer brushes are polymer chains densely tethered to substrates or interfaces. Different from free polymer chains, these tethered brushes exhibit unique chain conformations and b...

Permeation: A New Competitive Process for Offshore Gas Dehydration

ABSTRACT Usual process for gas dehydration implement absorption (glycol chemical process) or adsorption (molecular sieves). The new dehydration ...

Email:
Password:

Email:

Effect of temperature on gas permeation of polymer blends. I. Poly(ethylene oxide)/copolyester–polyurethane

Related Results