The morphology of crystalline polymers.

Blais, Pierre Joseph Jacques Bruno.

January 1966

No description available.

Polymers -- Effect of radiation on.

Crystallization

The effect of interfacial energetics on the physical properties of silica-polydimethyl siloxane composites.

Chahal, Ramlal Singh.

January 1968

No description available.

Polymers -- Effect of radiation on.

The effect of interfacial energetics on the physical properties of silica-polydimethyl siloxane composites.

Chahal, Ramlal Singh.

January 1968

No description available.

Polymers -- Effect of radiation on.

The morphology of crystalline polymers.

Blais, Pierre Joseph Jacques Bruno.

January 1966

No description available.

Crystallization

Polymers -- Effect of radiation on.

Electron radiation of aqueous methyl cellulose solutions

Hillend, W. Jack

01 January 1963

No description available.

Chemistry, Physical and theoretical

Polymers Effect of radiation on

Cellulose

The solid state polymerization of hydrated calcium acrylate and hydrated barium methacrylate.

Costaschuk, Fred Michael.

January 1970

No description available.

Acrylates.

Methyl methacrylate.

Polymers.

Polymers -- Effect of radiation on.

The solid state polymerization of hydrated calcium acrylate and hydrated barium methacrylate.

Costaschuk, Fred Michael.

January 1970

No description available.

Acrylates.

Polymers.

Polymers -- Effect of radiation on.

Methyl methacrylate.

Silver ion and solvent effects on polystyrene photochemistry

Oesterle, Matthew John

08 1900

No description available.

Ion exchange resigns

Photochemistry Industrial applications

Fundamental experiments on the response of solutions, polymers, and modified polymeric materials to electromagnetic radiation

Dallas, George

28 July 2008

This dissertation is divided into two sections. In the first section dielectric and magnetic properties were analyzed for a series of materials: bisphenol A solutions, a poly(amideimide), and polymers filled with either carbon black, iron particles, or aluminum flake. The second section deals with the influence of volatiles and low temperature aging on the dynamic mechanical and dielectric properties of a poly(amide-imide). In the first investigation, solutions of bisphenol A in tetrahydrofuran (THF) or diglycidylether of bisphenol A (DGEBA) in either toluene or tetrahydrofuran were used to identify the influence of chemistry, solvent, and concentration (0 - 2.6M) on dielectric loss (ɛ") and storage (ɛ') at (2.45 GHz). A number of solutions were examined as a function of frequency and temperature to obtain a mechanistic explanation for the single frequency data. The results showed the relaxation time shifting to higher frequencies with increased temperature and shifting to lower frequencies after a critical concentration. A polymer derived from bisphenol A and the diglycidylether of bisphenol A was sandwiched between two microwave inactive quartz plates to show selective heating of a 0.002" film. The poly(amide-imide's) dielectric storage and loss values (ɛ', ɛ") were examined as a function of temperature. The metal filled systems showed nonlinear behavior for dielectric loss (ɛ"), magnetic loss (µ"), and normalized magnetization (Gauss), which were explained by a percolation model. A critical volume fraction (Φ_C) was identified in the 0.15 - 0.25 volume fraction range. Scaling of dielectric and magnetic properties above Φ_C was 1.2 for aluminum flake, 1.5 for iron, and 5 for carbon black. The development of structure that occurred with increased filler content was monitored by scanning electron microscopy (SEM) and showed qualitative agreement with percolation behavior. At low volume fractions, there were individual particles, then clusters, then veins of material that extended many particle lengths. The second part of this dissertation dealt with the influence of volatiles on the dynamic mechanical and dielectric values of a poly({amide-imide). Experiments were conducted in both the temperature and time domains. These data were complemented by thermogravimetry (TG), thermogravimetry-mass spectrometry (TG-MS), and thermomechanical analysis (TMA). The isothermal desorption of volatiles (150 - 165°C) could be monitored by either mechanical, dielectric, or gravimetric techniques. The mechanical experiments revealed two peaks for water: one a low temperature peak (-90 - -50°C) and the other at (100 - 190°C). The dielectric analysis revealed two peaks for as received poly(amide-imide). The first was between -50 to 0°C, the other was between 0 to 50°C. The low power dielectric analysis and volatile desorption behavior were combined to explain the structure that developed after poly(amideimide) spheres were subjected to similar thermal or microwave processing conditions. Thermal processing produced a closed cell structure and a rough surface, while microwave processing produced an open cell structure at a smooth air-surface interface. / Ph. D.

LD5655.V856 1991.D344

Polymers -- Effect of radiation on

Solution (Chemistry)

Creation and modification of polymeric materials using electron beam radiation

McHerron, Dale C.

14 October 2005

This dissertation begins with a review of radiation chemistry and a number of important variables which can influence the chemistry occurring in irradiated polymeric materials. Following the literature review, four different studies involving the electron beam irradiation and subsequent characterization of various polymeric materials are presented. The first study describes a novel process that has been developed for producing crosslinked polymeric microspheres. With this process, it is possible to produce polymeric microspheres in an aqueous media with a solids content as high as 67 vol % by incorporating a trifunctional acrylate into a biliquid foam (known as polyaphrons) and exposing it to electron beam radiation. The second study involves characterizing the radiation response of a relatively new crystallizable polyimide, LARC-CPI, primarily in terms of its thermal properties as determined by differential scanning calorimetry (DSC), with some limited x-ray scattering experiments. The third study illustrates the effects of electron beam radiation on four different glassy polymers that have been physically aged prior to irradiation. It is shown that irradiation reduces the extent of aging present in the material and that this reduction is proportional to the absorbed dose. The last study examines the crosslinking behavior of a polystyrene - poly(vinyl methyl ether) blend as a function of absorbed dose, composition, and phase separation. It is shown that the crosslinking behavior (in terms of the gel fraction produced) is strongly dependent on all three of these factors. Furthermore, the protective nature of the aromatic groups in polystyrene that is typically displayed by this polymer was not observed in this blend system. / Ph. D.

LD5655.V856 1991.M449

Electron beams

Polymerization

Polymers -- Effect of radiation on