Method of processing polyacrylonitrile

Details Method of processing polyacrylonitrile Method of processing polyacrylonitrile

2002-10-09

2003-07-15

Teskin, Fred (Department: 1713)

Synthetic resins or natural rubbers -- part of the class 520 ser

Synthetic resins

Treating polymer containing material or treating a solid...

C528S488000, C528S491000, C528S492000, C528S493000, C528S495000, C528S496000, C528S497000, C528S498000, C528S503000, C264S331160, C264S345000

Reexamination Certificate

active

06593451

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method of processing polyacrylonitrile (“PAN”). More specifically, it relates to a method of processing PAN into products using significantly less solvent while creating products having superior physical characteristics. The present invention also relates to methods of processing polyacrylonitrile to produce prosthetic products and artificial joints, as well as the products themselves.
2. Information Disclosure Statement
The following patents are representative of the art relating to processing of polyacrylonitrile and products resulting therefrom:
U.S. Pat. No. 4,369,294 discloses block copolymers having acrylonitrile sequences and sequences of glutarimide units of a molecular weight of from about 10,000 to about 2,000,000 where the acrylonitrile sequences and sequences including glutarimide units are of molecular weight of at least about 400 with the number of sequences being at least about 2 and preferably 5 and higher.
U.S. Pat. No. 4,731,078 describes an artificial intraocular lens that features an optical body for refracting images onto the retina and an outer surface that encloses that optical body, is exposed to fluid within the eye, and has a refractive index no greater than 1.40. In another aspect, the optical body includes an internal refractive surface whose contour can be selectively changed to change its refractive power.
U.S. Pat. No. 4,731,079 describes a novel intraocular lens and mode of insertion therefore. The lens is of conventional shape and dimensions but is made of polymeric material having a softening point in the range of body temperature. The lens, prior to insertion is dimensionally reduced to enable introduction through a small incision by compression or by axial extension. The deformed lens is frozen in this configuration by cooling the lens below its softening temperature. The cooled, deformed lens is then inserted into the eye. The action of body heat, optionally supplemented by various non-harmful methods, permits the lens to regain its original configuration within the eye.
U.S. Pat. No. 4,943,618 describes a method that is disclosed for preparing polyacrylonitrile copolymers by heterogeneous reaction of polyacrylonitrile aquagel. Generally, the method includes the steps of preparing a solution of polyacrylonitrile by dissolving the polyacrylonitrile in a water-miscible solvent which is capable of dissolving the polyacrylonitrile but incapable of hydrolyzing the nitrile groups of the polyacrylonitrile under the dissolution conditions. Coagulating the polyacrylonitrile solution by replacing the solvent with a coagulating fluid such as water or a water miscible fluid incapable of dissolving polyacrylonitrile at temperatures below 80° C., and incapable of reacting with nitrile groups of the polyacrylonitrile, thus obtaining the polymer in the aquagel state. Replacing the coagulating fluid with a fluid reagent capable of reacting with nitrile groups of the polyacrylonitrile aquagel but incapable of dissolving the polyacrylonitrile aquagel at the selected reaction temperature. Allowing the fluid reagent to chemically react with the nitrile groups of the aquagel while the polyacrylonitrile aquagel is undissolved to form a copolymer product. The copolymer product is then either used in further chemical reactions involving newly formed and/or original side substituents, or isolated and utilized for molding or shaping into various articles. Various plasticizers, which when undiluted are capable of dissolving polyacrylonitrile, may be added to the copolymer product to assist in molding or shaping the material into an article.
U.S. Pat. No. 5,149,052 describes a method and apparatus for precision molding soluble polymers is disclosed, in order to form an exact and precisely shaped product, such as contact lenses and surgical implants. A preferred mold for forming contact lenses includes a female part having an indentation and a sharp circumferential edge surrounding the indentation. The mold also includes a male part which is adapted to contact the sharp circumferential edge of the female part to form the molding cavity between the indentation of the female part and the male part. A semi-permeable gate is formed between the female part and the male part for introducing coagulating fluid into the molding cavity while preventing the escape of the polymer solution from the molding cavity. The semi-permeable gate allows the diffusion of the coagulating fluid into the molding cavity at a faster rate than the rate of diffusion of solvent out of the molding cavity. The polymer solution is coagulated by the influx of the coagulating fluid into the polymer solution which causes both the coagulation and swelling of the polymer solution. Swelling of the polymer solution coagulates the solution under pressure within the molding cavity to form a precisely shaped product. Coagulation proceeds under pressure since the solvent diffuses out of the semi-permeable gate at a slower rate than the diffusion of the coagulating fluid into the molding cavity.
U.S. Pat. No. 5,159,360 describes a contact lens that is a soft, disposable lens which, under eye wearer conditions, changes one or more characteristics essential for comfortable use, at a predetermined time to initiate disposal thereof by the user. This lens, under wear conditions, changes, for example, at least its base curve redius and its deformability as a consequence of a change in hydrophilicity of at least a portion of the contact lens material. This hydrophilicity change may be achieved by various means, e.g. degradation of crosslinking bridges or conversion of less hydrophilic groups to groups having greater hydrophilicity. In one preferred embodiment, the conversion is achieved by hydrolysis of selected functional (hydrophobic) groups into hydrophilic groups.
U.S. Pat. No. 5,217,026 describes a guidewire that involves an elongated, non-hydrogel core element forming an inner part of the device, and an integral outside tubular layer of elastomeric hydrogel (“hydrogel sleeve”). This outer hydrogel layer has unique physical characteristics. They are (a) Gradient of chemical composition with increasing concentration of polar groups in the outward direction away from the core element; (b) Gradient of swelling in contact with water with water content increasing in the outward direction away from the core element; (c) Compressive stress in the outer hydrophilic layer causing the hydrogel in that layer to swell to a water content and, optionally, (d) Inward-directed radial stress pushing the outside hydrogel layer constantly against the inner core element. The present invention also involves the methods of making these guidewires, including melt extrusion directly onto the core element, coagulation from solution, in situ hydrogel polymer formation, and tubing extrusion followed by consequent shrink-fit over the core.
U.S. Pat. No. 5,218,039 describes stable emulsions and dispersions of both the water-in-oil and oil-in-water types that are prepared by subjecting mixtures of the two phases to shear stress in the presence of nitrile group-containing copolymers capable of forming hydrogels containing at least 90%, by weight, of water at room temperature.
U.S. Pat. No. 5,368,048 describes a method of making a radio-opaque tipped, sleeved guidewire. It includes providing a bendable core piece of a predetermined length, having a control end and having a predetermined core diameter, and providing a shrinkable polymeric sleeve formed of a first polymer composition having a first diameter at least as large as said core diameter and having a second, smaller diameter from shrinking said second diameter, which is less than said core diameter. The polymeric sleeve is placed over the core piece while the polymeric sleeve has its first diameter, so as to have one end of the polymeric sleeve cover at least a portion of the distal end of the core piece. Next, a mixture of a radio-opaque metal powder and a second polymer composition is provided. The se

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