Abstract: An acrylic-fiber finish for use in carbon-fiber production contributes to high tenacity of resultant carbon fiber. The acrylic-fiber finish for carbon-fiber production includes an epoxy-polyether-modified silicone and a surfactant. The weight ratios of the epoxy-polyether-modified silicone and the surfactant in the total of the non-volatile components of the finish respectively range from 1 to 95 wt % and from 5 to 50 wt %. The carbon fiber production method includes a fiber production process for producing an acrylic fiber for carbon-fiber production by applying the finish to an acrylic fiber which is a basic material for the acrylic fiber for carbon-fiber production; an oxidative stabilization process for converting the acrylic fiber produced in the fiber production process into oxidized fiber in an oxidative atmosphere at 200 to 300 deg.C.; and a carbonization process for carbonizing the oxidized fiber in an inert atmosphere at 300 to 2,000 deg.C.
Abstract: Wet process of low environmental impact recovers the lead content of an electrode slime and/or of lead minerals in the valuable form of high purity-lead carbonates that are convertible to highly pure lead oxide by heat treatment in oven at relatively low temperature, perfectly suited for making active electrode pastes of new batteries or other uses.
Type:
Grant
Filed:
January 15, 2008
Date of Patent:
April 3, 2012
Assignee:
Millbrook Lead Recycling Technologies Limited
Abstract: An outstandingly low environmental impact wet process recovers the lead content of an electrode slime and/or of lead minerals in the valuable form of high purity lead oxide or compound convertible to highly pure lead oxide by heat treatment in oven at relatively low temperature, perfectly suited for making active electrode pastes of new batteries or other uses.
Type:
Grant
Filed:
November 3, 2009
Date of Patent:
August 16, 2011
Assignee:
Millbrook Lead Recycling Technologies Limited
Abstract: The present invention provides a pharmaceutical composition for application to the mucosa to be used in drug therapy comprising a water-insoluble and/or water-low soluble substance, a medicament, and an aqueous medium, and having an osmotic pressure of less than 290 mOsm. This composition is superior over conventional pharmaceutical compositions for application to the mucosa, due to efficient and high permeability to the blood at the mucosa. The present invention further provides a pharmaceutical composition for application to the mucosa comprising a hemostatic agent and a medicament. This composition is superior over conventional pharmaceutical compositions for application to the mucosa, due to permeability and retentivity at the mucosa.
Abstract: A process is provided for the preparation of high purity basic lead carbonate and high purity normal lead carbonate by a double precipitation reaction employing a single lead acetate feed solution. The process is particularly applicable to processes for producing lead monoxide from solid lead sulfate-bearing materials such as battery mud.
Type:
Grant
Filed:
March 25, 1981
Date of Patent:
June 22, 1982
Assignee:
NL Industries, Inc.
Inventors:
Michael A. Kolakowski, John J. Valachovic
Abstract: An efficient and inexpensive method for producing lead monoxide from lead sulfate bearing materials such as recycled battery mud is provided comprising:(a) reacting said material with an ammonium carbonate solution to convert lead sulfate to lead carbonate;(b) decomposing the lead carbonate to form impure lead monoxide;(c) reacting the impure lead monoxide with acetic acid to form a lead acetate solution;(d) contacting the lead acetate solution with carbon dioxide to produce insoluble lead carbonate; and(e) decomposing the lead carbonate to form lead monoxide.
Type:
Grant
Filed:
March 3, 1980
Date of Patent:
May 26, 1981
Assignee:
NL Industries, Inc.
Inventors:
Eugene Striffler, Jr., Michael A. Kolakowski
Abstract: A composition of matter is disclosed which includes rubber, plastomer and elastomer materials, that is, natural and synthetic rubbers and polymeric materials commonly referred to as plastics containing as a filler material a carbonaceous siliceous material derived from organic agricultural material having high initial silica contents (for example, rice hulls) of up to about 28%; which carbonaceous siliceous material is obtained from the original organic agricultural material by a process of controlled incineration such that the resulting material contains minor residual impurities and small quantities of residual carbon and is amorphous in nature while retaining the original cellular structure of the agricultural material from which it is derived; the rubber; elastomeric and plastomeric compositions also may contain other ordinary components used in the preparation of such materials employing other fillers.
Type:
Grant
Filed:
July 23, 1973
Date of Patent:
April 20, 1976
Assignee:
The Regents of the University of California
Abstract: A method is disclosed for leaching finely divided lead sulphide bearing material to convert contained lead values to soluble lead acetate with concurrent conversion of sulphur values associated with the lead sulphide to an elemental state. The method involves forming a slurry consisting of the material dispersed in an aqueous medium containing free acetate ions and having a pH below 5.1. The slurry is reacted at a temperature of 60.degree. to 120.degree.C. with a free oxygen-bearing gas under a partial pressure of oxygen of 20 to 60 p.s.i. in order to convert lead sulphide to soluble lead acetate with concurrent production of insoluble elemental sulphur.