US2979157A - Process for producing gas-proof and gas-adsorbent materials and the articles so produced - Google Patents

Process for producing gas-proof and gas-adsorbent materials and the articles so produced Download PDF

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US2979157A
US2979157A US463078A US46307842A US2979157A US 2979157 A US2979157 A US 2979157A US 463078 A US463078 A US 463078A US 46307842 A US46307842 A US 46307842A US 2979157 A US2979157 A US 2979157A
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gas
adsorbent
cellulose
alkali
gases
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Clark James Andrew
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Akzo Nobel UK PLC
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American Viscose Corp
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Assigned to WESTERN AND SOUTHERN LIFE INSURANCE COMPANY THE C/O NEW ENGLAND MUTUAL LIFE INSURANCE COMPANY, PROVIDENT ALLIANCE LIFE INSURANCE COMPANY C/O THE PAUL REVERE EQUITY MANAGEMENT COMPANY, JOHN HANCOCK MUTUAL LIFE INSURANCE COMPANY, PAUL REVERE LIFE INSURANCE COMPANY THE C/O THE PAUL REVERE EQUITY MANAGEMENT COMPANY, BALBOA INSURANCE COMPANY C/O THE PAUL REVERE EQUITY MANAGEMENT COMPANY, NEW ENGLAND MUTUAL LIFE INSURANCE COMPANY reassignment WESTERN AND SOUTHERN LIFE INSURANCE COMPANY THE C/O NEW ENGLAND MUTUAL LIFE INSURANCE COMPANY AS SECURITY FOR INDEBTEDNESS RECITED ASSIGNOR GRANTS , BARGAINS, MORTGAGES, PLEDGES, SELLS AND CREATES A SECURITY INTEREST WITH A LIEN UNDER SAID PATENTS, SUBJECT TO CONDITIONS RECITED. (SEE DOCUMENT FOR DETAILS). Assignors: AVTEX FIBERS INC. A NY CORP.
Assigned to KELLOGG CREDIT CORPORATION A DE CORP. reassignment KELLOGG CREDIT CORPORATION A DE CORP. AGREEMENT WHEREBY SAID HELLER AND RAYONIER RELEASES ALL MORTGAGES AND SECURITY INTERESTS HELD BY AVTEX ON APRIL 28, 1978, AND JAN. 11, 1979, RESPECTIVELY AND ASSIGNS ITS ENTIRE INTEREST IN SAID MORT-AGAGE AGREEMENT TO ASSIGNEE (SEE RECORD FOR DETAILS) Assignors: AVTEX FIBERS INC., A NY CORP., ITT RAYONIER INCORPORATED, A DE CORP., WALTER E. HELLER & COMPANY, INC. A NY CORP.
Assigned to WALTER E. HELLER & COMPANY, INC., A CORP. OF DEL. reassignment WALTER E. HELLER & COMPANY, INC., A CORP. OF DEL. AGREEMENT WHEREBY AETNA RELEASES AVTEX FROM ALL MORTAGES AND SECURITY INTERESTS IN SAID INVENTIONS AS OF JANUARY 11,1979, AND ASSIGNS TO ASSIGNEE THE ENTIRE INTEREST IN SAID MORTAGE AGREEMENT TO ASSIGNEE (SEE RECORDS FOR DETAILS). Assignors: AETNA BUSINESS CREDIT, INC., A CORP. OF N.Y., AVTEX FIBERS, INC, A CORP. OF NY, KELLOGG CREDIT CORP., A CORP. OF DEL.
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J20/00Solid sorbent compositions or filter aid compositions; Sorbents for chromatography; Processes for preparing, regenerating or reactivating thereof
    • B01J20/28Solid sorbent compositions or filter aid compositions; Sorbents for chromatography; Processes for preparing, regenerating or reactivating thereof characterised by their form or physical properties
    • B01J20/28014Solid sorbent compositions or filter aid compositions; Sorbents for chromatography; Processes for preparing, regenerating or reactivating thereof characterised by their form or physical properties characterised by their form
    • B01J20/28028Particles immobilised within fibres or filaments
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J20/00Solid sorbent compositions or filter aid compositions; Sorbents for chromatography; Processes for preparing, regenerating or reactivating thereof
    • B01J20/28Solid sorbent compositions or filter aid compositions; Sorbents for chromatography; Processes for preparing, regenerating or reactivating thereof characterised by their form or physical properties
    • B01J20/28014Solid sorbent compositions or filter aid compositions; Sorbents for chromatography; Processes for preparing, regenerating or reactivating thereof characterised by their form or physical properties characterised by their form
    • B01J20/28033Membrane, sheet, cloth, pad, lamellar or mat

Definitions

  • the material should be such that it adsorbs a relatively large proportion of the various types of war gases while permitting oxygen or air to pass through;
  • the supporting material for the adsorbent should be substantially porous in order to permit perspiration or other liquids to evaporate from the wearers body;
  • the material comprising the support shouldsubstantially retain its flexibility after being combined with the gas adsorbent;
  • the treated material should be of such porosity as to filter out small particles of dust, smoke and oil droplets;
  • the gas adsorbent should be substantially permanently bound to the supporting material in order to prevent the adsorbent from becoming dislodged from the support by rain, laundering or rough usage or by the softening effect of moisture and perspiration.
  • the gas-proofed material should be capable of reuse after decontarnination.
  • Another object of the invention is to combine a fabric with a gas adsorbent in such a manner that it will be substantially resistant to washing and laundering.
  • Another object of the invention is to provide a fibrous material combined with a gas-proofing composition, in such a manner that the gas-proofing composition is substantially permanently bound thereto and the resulting structure forms a combined filter and gas-adsorbing material.
  • a further object of the invention is to provide a gasadsorbent composition which is adapted to serve as a permanent finishing agent for sheet materials such as fabrics, felts, paper and the like.
  • fibrous sheet mate- H 2,979,15 Patented Apr. 11, 1961 rials are rendered substantially gas-proof by impregnating the fibrous material with an aqueous dispersion of an alkali-soluble water-insoluble cellulosic colloid asa carrier having a gas adsorbent dispersed therein, coagulating this composition on the fibrous material, and drying the treated material to produce a fibrous structure which is substantially porous to air but capable of adsorbing chemical war gases and/or smokes, and which may be reused after contamination and decontamination.
  • the article comprises the comminuted gas adsorbent (e.g. activated carbon), a carrier therefor (the cellulosic colloid) and a support (the fibrous material).
  • the invention accordingly comprises the several steps and the relation of one or more of such steps with respect to each of the others and the article possessing the features, properties and the relation of elements, which are exemplified in the following detailed disclosure and the scope of the invention will be indicated in the claims.
  • the gas adsorbent which may be employed in the present invention may comprise such adsorbents as carbon, alumina gel, silica gel, manganese dioxide, finely divided metals such as zinc, nickel, platinum and the like which may function as adsorbents or gas-adsorbent catalysts, metallic salts, and other gas adsorbents or mixtures of such gas adsorbents which are known to the art.
  • adsorbents as carbon, alumina gel, silica gel, manganese dioxide, finely divided metals such as zinc, nickel, platinum and the like which may function as adsorbents or gas-adsorbent catalysts, metallic salts, and other gas adsorbents or mixtures of such gas adsorbents which are known to the art.
  • the gas adsorbent an activated carbon of high or low density and preferably in a finely comminuted state.
  • An acid adsorbent such as zinc oxide
  • the acid adsorbent may have the further function of maintaining the efficiency of-such gm adsorbent as charcoal, which is known to have its efliciency reduced or destroyed by acid contact.
  • Alkali-soluble water-insoluble cellulosic materials as a class may be employed as the carrier for the gasadsorbent material.
  • Such alkali-soluble water-insoluble cellulosic materials comprise cellulose ethers, for example, alkyl-hydroXy-alkyland carboXy-alkyl cellulose ethers and the like, mixed cellulose ethers, cellulose etheresters, alkali-soluble metal salts of the carboxy-alkyl cellulose ethers-and mixtures of these cellulose ethers, all of which are capable of being dispersed or dissolved in aqueous alkali.
  • cellulose ethers which may be employed are methyl cellulose, ethyl cellulose, hydroxyethyl cellulose, propyl cellulose, cellulose glycolic acid ethers, alkali salts of the gycolic acid ethers of cellulose and the like.
  • alkali-soluble celluloses such as degraded alpha cellulose, beta cellulose and oXy-cellulose which may be produced by degradation and/or decomposition of cellulose by heat, acids, alkali and the like, which treatments result in a product which is soluble in aqueous alkali solution, such as 8 to 10% caustic soda solution upon freezing and thawing the solution.
  • Suitable alkali-soluble water-insoluble cellulosic materials of this class are those disclosed in British Patent No. 507,138 and in the co-pending U.S. application Serial No. 427,389 filed January 19, 1942, now Patent No. 2,365,455 issued on December 19, 1944.
  • viscose, cuprammonium solutions of cellulose, and cellulose dissolved in alkaline solutions of zinc salts there is employed as the carrier for the gas-adsorbent a solution comprising an alkali-soluble water-insoluble cellulose ether, such as hydroxyethyl cellulose.
  • the dispersion media for the cellulosic carrier may comprise aqueous solutions of strong inorganic alkalis, such as sodium hydroxide, potassium hydroxide, quaternary ammonium hydroxides, and the like, also strong organic bases such as aralkyl ammonium hydroxides, and the dispersion may be an emulsion, true solution or colloidal solution. From such dispersions the alkalisoluble cellulosic material may be precipitated by any known coagulant used for coagulating viscose, such as acids, acid-salts, salts and heat.
  • strong inorganic alkalis such as sodium hydroxide, potassium hydroxide, quaternary ammonium hydroxides, and the like
  • organic bases such as aralkyl ammonium hydroxides
  • Fibrous materials constituting the support which may be gas-proofed in accordance with the present invention may be formed in whole or in part of natural fibres such as wood, cotton, hemp, flax, ramie, jute, silk, wool, leather and the like; artificial fibres and filaments formed of regenerated cellulose, such as viscose rayon; or organic cellulose derivatives as a class, such as cellulose ethers, cellulose esters or mixed cellulose ether-esters; synthetic resins as a class such as nylon, vinyl co-polymers, vinylidine chloride polymers; and synthetic rubbers as a class, mineral fibres as a class such as glass fibres, asbestos rock wool and the like.
  • natural fibres such as wood, cotton, hemp, flax, ramie, jute, silk, wool, leather and the like
  • artificial fibres and filaments formed of regenerated cellulose, such as viscose rayon or organic cellulose derivatives as a class, such as cellulose ethers, cellulose esters or mixed
  • Such fibrous materials may be treated in the form of fibres, yarns, fabrics, in particular wearing apparel, felts, papers, and the like, before, during, or after fabrication.
  • the gas-proofing composition may be applied to such fibrous materials before, during, or after bleaching, dyeing, softening, printing or other treatment. Papers may be treated during or after felting or sheeting.
  • the finishing composition containing the gas adsorbent may be applied to the fibrous material by spreading, coating, back-filling, padding, impregnating, spraying, or by means of suitable combinations thereof and by means of suitable apparatus known to the art. It is to be understood that the method of applying the composition to the fabric may be varied according o the nature of the fibrous material to be treated, the nature and the viscosity of the binding material and the nature of the final product desired.
  • the fibrous material may be then washed, stretched, tentered or dried in known manner. Care is taken to permit the fibrous material thus treated to substantially retain its porosity and textile characteristics in order that smokes and gases may be permitted to pass therethrough and become adsorbed and/ or filtered by the gas-adsorbent material.
  • the fibrous material may be initally pretreated with a small amount of the dispersion medium or with a suitable wetting agent, and the material then treated while in the pretreated condition in accordance with the process of the present invention.
  • a pretreating process it has been found that the cellulosic composition containing the gas adsorbent is more permanently bound to the fibres and penetration is substantially increased.
  • the fibrous material and/or the cellulosic composition may be varied by the addition of fillers, plasticizers, waterproofing agents, creaseproofing agents, coloring matter and the like, at any stage during the process.
  • the fibrous material may be printed with the composition containing the gas adsorbent;
  • the ratio of the carrier to the solid adsorbent may range from 1:1 to 1:3.
  • the carrier constitutes less than 50% of the solids in the composition since it has been found that the smaller the amount of carrier, consistent with good anchorage on the support, the better will be the adsorbent characteristics of the gasproofed material.
  • Example I An 80x80 bleached cotton cloth was padded with a solution comprising 4% alkali-soluble water-insoluble hydroxy-ethyl cellulose dissolved in 6% aqueous sodium hydroxide solution to which there had been added 16% of comminuted Norit A brand activated charcoal.
  • the padded material was partially dried and then passed into an aqueous bath containing 5% acetic acid which coagulated the cellulose ether thus binding the charcoal in dispersed form to the fabric.
  • the cloth was then rinsed, softened, and dried, and otherwise processed in known manner. Upon testing, it was found that the cloth was permeable to air but filtered out a considerable quantity of smoke and substantially entirely adsorbed such chemi-.
  • the fabric was found to retain a majority of the gas adsorbent after laundering and was capable of reuse after decontamination.
  • Example [I A 64 x 64 cotton sheeting was first backfilled with an unfilled composition comprising 4% alkali-soluble waterinsoluble cellulose glycolic acid ether dissolved in 7% aqueous caustic soda solution. The sheeting was partially dried and then backfilled on the same side with a second composition comprising 3% alkali-soluble water-insoluble cellulose glycolic acid ether, 4% aqueous caustic soda solution and 32% finely divided activated carbon. The carbon previously wet with dilute caustic soda solution was added to the composition while stirring. The backfilled sheeting was then treated to coagulate the cellulose ether of both applied compositions by semi-drying, and thereafter passing semi-dried fabric through an aqueous solution comprising 5% sulphuric acid. After coagulation the fabric was washed, dried and otherwise finished in known manner. It was found that the cloth, While still permeable to air, prevented passage of smoke and poisonous gases. The fabric retained such properties even after decontamination.
  • Example III The process of Example II was carried out, but with the difference that both of the coatings contained activated carbon.
  • the gas-proofed materials produced according to the present invention have a wide variety of uses which fall generally into two main classes; (a) for protective purposes, and (b) for filtration and separation of gases.
  • the protective uses include inter alia the use of the material for wearing apparel, in particular for military uniforms, blankets, sleeping bags and other bedding material, surgical dressings to avoid infection by gas gangrene, wrappers and containers of all kinds, in particular for foodstufis to prevent contamination by mustard gas and other war gases, covers, tarpaulins, tents and curtains, in particular for military use for protection against gas in chemical warfare, and the like.
  • the uses as a filter include inter alia the use of the material in gas masks, including both the fabric body of the mask as well as the adsorbent in the canister, masks for lacquen'ng and paint spraying, filters in ducts for airconditi-oning and in flues for deodorizing flue gases, filters for separating one gas from another, filters in smoking pipe stems, and the like.
  • Pellets may be formed by coagulating a mixture of the gas adsorbent and the alkali-soluble water-insoluble cellulosic carrier free of any support, drying the coagulum, and granulating the dried material. Such pellets may be used to advantage in gas mask canisters and in gas and an filters.
  • the gas adsorbent combined with a fibrous support
  • various structures may be prepared which would not be possible by using the unsupported adsorbent alone.
  • the size of the pores of the fibrous support may be regulated by controlling the amount of the gas-adsorbent composition applied to vary the permeability to air over a wide range.
  • the combination of fibrous material with the gas adsorbent furthermore provides a product which is effective for filtering smoke, particularly if some of the particles of the smoke are so fine as to have little tendency to be adsorbed by the gas adsorbent alone.
  • the invention permits the use of finely powdered activated carbon in place of granular carbon, thus allowing for a greater surface area of the carbon, with a higher adsorptive value per unit weight of carbon.
  • the treated fibrous material prevents the passage of gases of various types by its adsorption of these gases the material has been termed gas-proofed and the composition gas-proofing in the appended claims.
  • felts includes textile felts and papers.
  • a material permeable to air but impermeable to heavy gases comprising a fibrous support combined with an alkali-soluble water-insoluble cellulosic colloid carrying a solid material which is an adsorbent of said heavy gases.
  • a material permeable to air but impermeable to heavy gases comprising a textile combined with an alkalisoluble water-insoluble cellulosic colloid carrying a solid material which is an adsorbent of said heavy gases.
  • a material permeable to air but impermeable to heavy gases comprising a felt combined with an alkalisoluble water-insoluble cellulosic colloid carrying a solid material which is an adsorbent of said heavy gases.
  • a textile material permeable to air but impermeable to heavy gases comprising a fabric impregnated with an alkali-soluble Water-insoluble cellulose ether carrying particles of a solid material which is an adsorbent of said heavy gases dispersed therein.
  • a composition for adsorbing heavy gases comprising an aqueous dispersion of an alkali-soluble water-insoluble cellulosic colloid and a solid material which is an adsorbent of said heavy gases.
  • a composition for adsorbing heavy gases comprising an aqueous dispersion of an alkali-soluble water-insoluble cellulose and a solid material which is an adsorbent of said heavy gases.
  • a composition for adsorbing heavy gases comprising an aqueous dispersion of an alkali-soluble water-insoluble cellulose ether and a solid material which is an adsorbent of said heavy gases.
  • a composition for adsorbing heavy gases comprising an aqueous dispersion of an alkali-soluble water-insoluble cellulose ether and finely divided activated carbon.
  • a process for producing a material permeable to air but impermeable to heavy gases comprising combining a fibrous support with an aqueous dispersion of an alkali-soluble water-soluble cellulosic colloid and a comminuted solid material which is an adsorbent of said heavy gases, coagulating said cellulosic colloid carrying said adsorbent on said fibrous material, the coagulated colloid binding the adsorbent to the support.
  • a process for producing a fabric permeable to air but impermeable to heavy gases comprising impregnating the fabric with an aqueous dispersion of an alkali-soluble water-insoluble cellulosic colloid and a comminuted solid material which is an adsorbent of said heavy gases, coagulating the cellulosic colloid on said fabric, thus binding the adsorbent to the fabric.
  • a process for producing a fabric permeable to air but impermeable to heavy gases comprising coating the fabric with an aqueous dispersion of an alkalisoluble water-insoluble cellulosic colloid and a comminuted solid gas-adsorbent carbon, coagulating said cellulosic colloid on said material, thus binding the adsorbent to the fabric.
  • a process for producing a fabric permeable to air but impermeable to heavy gases comprising backfilling the fabric with an aqueous dispersion of an alkali-soluble water-insoluble cellulosic colloid and a comminuted solid material which is an adsorbent of said heavy gases, coagulating said cellulosic colloid on said fabric, thus binding the adsorbent to the fabric.
  • a process for producing a material permeable to air but impermeable to heavy gases comprising combining a fibrous support with an aqueous dispersion of an alkali-soluble water-insoluble cellulose ether and a comminuted carbon, coagulating said cellulose ether carrying said carbon on said fibrous material, the coagulated ether binding the carbon to the support.

Description

PROCESS FOR PRODUCING GAS-PROOF AND GAS-ADSORBENT MATERIALS AND TIDE AR- TICLES SO PRODUCED James Andrew Clark, Port Chester, N.Y., assignor, by mesne assignments, to American Viscose Corporation, Wilmington, DeL, a corporation of Delaware No Drawing. Filed Oct. 23, 1942, Ser. No. 463,078
13 Claims. (Cl. 183-4) to provide gas masks, protective clothing, gas shelters I and other protective equipment treated or combined with a gas adsorbent material.
The prerequisites of an ideal gas-proofed material, in particular for use as Wearing apparel, are as follows: The material should be such that it adsorbs a relatively large proportion of the various types of war gases while permitting oxygen or air to pass through; the supporting material for the adsorbent should be substantially porous in order to permit perspiration or other liquids to evaporate from the wearers body; the material comprising the support shouldsubstantially retain its flexibility after being combined with the gas adsorbent; the treated material should be of such porosity as to filter out small particles of dust, smoke and oil droplets; the gas adsorbent should be substantially permanently bound to the supporting material in order to prevent the adsorbent from becoming dislodged from the support by rain, laundering or rough usage or by the softening effect of moisture and perspiration. Finally the gas-proofed material should be capable of reuse after decontarnination.
It is therefore a general object of the present invention to provide a gas-proofed material in which a gas adsorbent is substantially permanently bound to a fibrous supporting material, the treated material substantially fulfilling the above-mentioned requirements of an ideal gas-proofing material.
Another object of the invention is to combine a fabric with a gas adsorbent in such a manner that it will be substantially resistant to washing and laundering.
It is a more specific object of the invention to provide wearing apparel combined with a gas-adsorbent composition, in such a manner that the wearing apparel retains its porosity, flexibility and is capable of being reused after decontamination.
Another object of the invention is to provide a fibrous material combined with a gas-proofing composition, in such a manner that the gas-proofing composition is substantially permanently bound thereto and the resulting structure forms a combined filter and gas-adsorbing material.
A further object of the invention is to provide a gasadsorbent composition which is adapted to serve as a permanent finishing agent for sheet materials such as fabrics, felts, paper and the like.
Other objects of the present invention will in part be obvious and will in part appear hereinafter.
According to the present invention fibrous sheet mate- H 2,979,15 Patented Apr. 11, 1961 rials are rendered substantially gas-proof by impregnating the fibrous material with an aqueous dispersion of an alkali-soluble water-insoluble cellulosic colloid asa carrier having a gas adsorbent dispersed therein, coagulating this composition on the fibrous material, and drying the treated material to produce a fibrous structure which is substantially porous to air but capable of adsorbing chemical war gases and/or smokes, and which may be reused after contamination and decontamination. Thus the article comprises the comminuted gas adsorbent (e.g. activated carbon), a carrier therefor (the cellulosic colloid) and a support (the fibrous material).
Heretofore it was not thought possible to bind a comminuted gas adsorbent to a support by means of a film-forming colloid because it was thought that the colloid would prevent contact of the gas with the particles of the solid adsorbent and also decrease its adsorptivity. The surprising discovery has now been made that the cellulosic colloids used as the carrier in the present invention do not materially decrease the adsorptivity of the adsorbent even though the particles of the adsorbent are'imbedded in and surrounded by the colloid.
The invention accordingly comprises the several steps and the relation of one or more of such steps with respect to each of the others and the article possessing the features, properties and the relation of elements, which are exemplified in the following detailed disclosure and the scope of the invention will be indicated in the claims.
The gas adsorbent which may be employed in the present invention may comprise such adsorbents as carbon, alumina gel, silica gel, manganese dioxide, finely divided metals such as zinc, nickel, platinum and the like which may function as adsorbents or gas-adsorbent catalysts, metallic salts, and other gas adsorbents or mixtures of such gas adsorbents which are known to the art. In the preferred embodiment there is employed as the gas adsorbent an activated carbon of high or low density and preferably in a finely comminuted state.
I An acid adsorbent, such as zinc oxide, may be combined with the fibrous material as by impregnation, or mixed or combined with the gas adsorbent and/or the cellulose binder in order to adsorb or neutralize liquid or volatile gaseous acids, for example to neutralize the acid of body perspiration. The acid adsorbent may have the further function of maintaining the efficiency of-such gm adsorbent as charcoal, which is known to have its efliciency reduced or destroyed by acid contact.
Alkali-soluble water-insoluble cellulosic materials as a class may be employed as the carrier for the gasadsorbent material. Such alkali-soluble water-insoluble cellulosic materials comprise cellulose ethers, for example, alkyl-hydroXy-alkyland carboXy-alkyl cellulose ethers and the like, mixed cellulose ethers, cellulose etheresters, alkali-soluble metal salts of the carboxy-alkyl cellulose ethers-and mixtures of these cellulose ethers, all of which are capable of being dispersed or dissolved in aqueous alkali. Among the various cellulose ethers which may be employed are methyl cellulose, ethyl cellulose, hydroxyethyl cellulose, propyl cellulose, cellulose glycolic acid ethers, alkali salts of the gycolic acid ethers of cellulose and the like.
In addition to employing the alkali-soluble cellulose ethers as the carrier, there may be employed alkali-soluble celluloses, such as degraded alpha cellulose, beta cellulose and oXy-cellulose which may be produced by degradation and/or decomposition of cellulose by heat, acids, alkali and the like, which treatments result in a product which is soluble in aqueous alkali solution, such as 8 to 10% caustic soda solution upon freezing and thawing the solution. Suitable alkali-soluble water-insoluble cellulosic materials of this class are those disclosed in British Patent No. 507,138 and in the co-pending U.S. application Serial No. 427,389 filed January 19, 1942, now Patent No. 2,365,455 issued on December 19, 1944. There may also be employed viscose, cuprammonium solutions of cellulose, and cellulose dissolved in alkaline solutions of zinc salts, as disclosed in US. 2,289,085. In the preferred embodiment of the invention there is employed as the carrier for the gas-adsorbent a solution comprising an alkali-soluble water-insoluble cellulose ether, such as hydroxyethyl cellulose.
The dispersion media for the cellulosic carrier may comprise aqueous solutions of strong inorganic alkalis, such as sodium hydroxide, potassium hydroxide, quaternary ammonium hydroxides, and the like, also strong organic bases such as aralkyl ammonium hydroxides, and the dispersion may be an emulsion, true solution or colloidal solution. From such dispersions the alkalisoluble cellulosic material may be precipitated by any known coagulant used for coagulating viscose, such as acids, acid-salts, salts and heat.
Fibrous materials constituting the support which may be gas-proofed in accordance with the present invention may be formed in whole or in part of natural fibres such as wood, cotton, hemp, flax, ramie, jute, silk, wool, leather and the like; artificial fibres and filaments formed of regenerated cellulose, such as viscose rayon; or organic cellulose derivatives as a class, such as cellulose ethers, cellulose esters or mixed cellulose ether-esters; synthetic resins as a class such as nylon, vinyl co-polymers, vinylidine chloride polymers; and synthetic rubbers as a class, mineral fibres as a class such as glass fibres, asbestos rock wool and the like. Such fibrous materials may be treated in the form of fibres, yarns, fabrics, in particular wearing apparel, felts, papers, and the like, before, during, or after fabrication. The gas-proofing composition may be applied to such fibrous materials before, during, or after bleaching, dyeing, softening, printing or other treatment. Papers may be treated during or after felting or sheeting.
The finishing composition containing the gas adsorbent may be applied to the fibrous material by spreading, coating, back-filling, padding, impregnating, spraying, or by means of suitable combinations thereof and by means of suitable apparatus known to the art. It is to be understood that the method of applying the composition to the fabric may be varied according o the nature of the fibrous material to be treated, the nature and the viscosity of the binding material and the nature of the final product desired.
The fibrous material may be then washed, stretched, tentered or dried in known manner. Care is taken to permit the fibrous material thus treated to substantially retain its porosity and textile characteristics in order that smokes and gases may be permitted to pass therethrough and become adsorbed and/ or filtered by the gas-adsorbent material.
The fibrous material may be initally pretreated with a small amount of the dispersion medium or with a suitable wetting agent, and the material then treated while in the pretreated condition in accordance with the process of the present invention. By using a pretreating process, it has been found that the cellulosic composition containing the gas adsorbent is more permanently bound to the fibres and penetration is substantially increased.
The fibrous material and/or the cellulosic composition may be varied by the addition of fillers, plasticizers, waterproofing agents, creaseproofing agents, coloring matter and the like, at any stage during the process. Similarly, the fibrous material may be printed with the composition containing the gas adsorbent;
Generally speaking the ratio of the carrier to the solid adsorbent may range from 1:1 to 1:3. Preferably the carrier constitutes less than 50% of the solids in the composition since it has been found that the smaller the amount of carrier, consistent with good anchorage on the support, the better will be the adsorbent characteristics of the gasproofed material.
By way of illustrating but not by way of limiting the invention, there will be given the following examples:
Example I An 80x80 bleached cotton cloth was padded with a solution comprising 4% alkali-soluble water-insoluble hydroxy-ethyl cellulose dissolved in 6% aqueous sodium hydroxide solution to which there had been added 16% of comminuted Norit A brand activated charcoal. The padded material was partially dried and then passed into an aqueous bath containing 5% acetic acid which coagulated the cellulose ether thus binding the charcoal in dispersed form to the fabric. The cloth was then rinsed, softened, and dried, and otherwise processed in known manner. Upon testing, it was found that the cloth was permeable to air but filtered out a considerable quantity of smoke and substantially entirely adsorbed such chemi-.
cal war gases as phosgene and the like, for an extended period of time. Furthermore, the fabric was found to retain a majority of the gas adsorbent after laundering and was capable of reuse after decontamination.
Example [I A 64 x 64 cotton sheeting was first backfilled with an unfilled composition comprising 4% alkali-soluble waterinsoluble cellulose glycolic acid ether dissolved in 7% aqueous caustic soda solution. The sheeting was partially dried and then backfilled on the same side with a second composition comprising 3% alkali-soluble water-insoluble cellulose glycolic acid ether, 4% aqueous caustic soda solution and 32% finely divided activated carbon. The carbon previously wet with dilute caustic soda solution was added to the composition while stirring. The backfilled sheeting was then treated to coagulate the cellulose ether of both applied compositions by semi-drying, and thereafter passing semi-dried fabric through an aqueous solution comprising 5% sulphuric acid. After coagulation the fabric was washed, dried and otherwise finished in known manner. It was found that the cloth, While still permeable to air, prevented passage of smoke and poisonous gases. The fabric retained such properties even after decontamination.
Example III The process of Example II was carried out, but with the difference that both of the coatings contained activated carbon.
The gas-proofed materials produced according to the present invention have a wide variety of uses which fall generally into two main classes; (a) for protective purposes, and (b) for filtration and separation of gases. The protective uses include inter alia the use of the material for wearing apparel, in particular for military uniforms, blankets, sleeping bags and other bedding material, surgical dressings to avoid infection by gas gangrene, wrappers and containers of all kinds, in particular for foodstufis to prevent contamination by mustard gas and other war gases, covers, tarpaulins, tents and curtains, in particular for military use for protection against gas in chemical warfare, and the like.
The uses as a filter include inter alia the use of the material in gas masks, including both the fabric body of the mask as well as the adsorbent in the canister, masks for lacquen'ng and paint spraying, filters in ducts for airconditi-oning and in flues for deodorizing flue gases, filters for separating one gas from another, filters in smoking pipe stems, and the like.
It has been found practical to provide a gas mask canister having sections partitioned by discs formed of the gas-proofed fabric, felt or paper rolled into the edges of the container. the spaces between the discs being filled with soda lime for adsorbing and neutralizing acids. Pellets may be formed by coagulating a mixture of the gas adsorbent and the alkali-soluble water-insoluble cellulosic carrier free of any support, drying the coagulum, and granulating the dried material. Such pellets may be used to advantage in gas mask canisters and in gas and an filters.
Among the advantages which follow from applicant's I invention it has been observed that by having the gas adsorbent combined with a fibrous support, various structures may be prepared which would not be possible by using the unsupported adsorbent alone. Moreover, the size of the pores of the fibrous support may be regulated by controlling the amount of the gas-adsorbent composition applied to vary the permeability to air over a wide range. The combination of fibrous material with the gas adsorbent furthermore provides a product which is effective for filtering smoke, particularly if some of the particles of the smoke are so fine as to have little tendency to be adsorbed by the gas adsorbent alone. The invention permits the use of finely powdered activated carbon in place of granular carbon, thus allowing for a greater surface area of the carbon, with a higher adsorptive value per unit weight of carbon.
Since certain changes in carrying out the above process, and certain modifications in the article which embody the invention may be made without departing from its scope, it is intended that all matter contained in the above description shall be interpreted as illustrative and not in a limiting sense.
Inasmuch as the treated fibrous material prevents the passage of gases of various types by its adsorption of these gases the material has been termed gas-proofed and the composition gas-proofing in the appended claims. Further in the claims the term felts includes textile felts and papers.
Having described my invention, what I claim as new and desire to secure by Letters Patent is:
1. A material permeable to air but impermeable to heavy gases comprising a fibrous support combined with an alkali-soluble water-insoluble cellulosic colloid carrying a solid material which is an adsorbent of said heavy gases.
2. A material permeable to air but impermeable to heavy gases comprising a textile combined with an alkalisoluble water-insoluble cellulosic colloid carrying a solid material which is an adsorbent of said heavy gases.
3. A material permeable to air but impermeable to heavy gases comprising a felt combined with an alkalisoluble water-insoluble cellulosic colloid carrying a solid material which is an adsorbent of said heavy gases.
4. A textile material permeable to air but impermeable to heavy gases comprising a fabric impregnated with an alkali-soluble Water-insoluble cellulose ether carrying particles of a solid material which is an adsorbent of said heavy gases dispersed therein.
5. A composition for adsorbing heavy gases comprising an aqueous dispersion of an alkali-soluble water-insoluble cellulosic colloid and a solid material which is an adsorbent of said heavy gases.
6. A composition for adsorbing heavy gases comprising an aqueous dispersion of an alkali-soluble water-insoluble cellulose and a solid material which is an adsorbent of said heavy gases.
7. A composition for adsorbing heavy gases comprising an aqueous dispersion of an alkali-soluble water-insoluble cellulose ether and a solid material which is an adsorbent of said heavy gases.
8. A composition for adsorbing heavy gases comprising an aqueous dispersion of an alkali-soluble water-insoluble cellulose ether and finely divided activated carbon.
9. In a process for producing a material permeable to air but impermeable to heavy gases, the steps comprising combining a fibrous support with an aqueous dispersion of an alkali-soluble water-soluble cellulosic colloid and a comminuted solid material which is an adsorbent of said heavy gases, coagulating said cellulosic colloid carrying said adsorbent on said fibrous material, the coagulated colloid binding the adsorbent to the support.
10. In a process for producing a fabric permeable to air but impermeable to heavy gases the steps comprising impregnating the fabric with an aqueous dispersion of an alkali-soluble water-insoluble cellulosic colloid and a comminuted solid material which is an adsorbent of said heavy gases, coagulating the cellulosic colloid on said fabric, thus binding the adsorbent to the fabric.
11. In a process for producing a fabric permeable to air but impermeable to heavy gases the steps comprising coating the fabric with an aqueous dispersion of an alkalisoluble water-insoluble cellulosic colloid and a comminuted solid gas-adsorbent carbon, coagulating said cellulosic colloid on said material, thus binding the adsorbent to the fabric.
12. In a process for producing a fabric permeable to air but impermeable to heavy gases the steps comprising backfilling the fabric with an aqueous dispersion of an alkali-soluble water-insoluble cellulosic colloid and a comminuted solid material which is an adsorbent of said heavy gases, coagulating said cellulosic colloid on said fabric, thus binding the adsorbent to the fabric.
13. In a process for producing a material permeable to air but impermeable to heavy gases, the steps comprising combining a fibrous support with an aqueous dispersion of an alkali-soluble water-insoluble cellulose ether and a comminuted carbon, coagulating said cellulose ether carrying said carbon on said fibrous material, the coagulated ether binding the carbon to the support.
References Cited in the file of this patent UNITED STATES PATENTS 2,286,964 Hucks June 16, 1942

Claims (1)

1. A MATERIAL PERMEABLE TO AIR BUT IMPREMEABLE TO HEAVY GASES COMPRISING A FIBROUS SUPPORT COMBINED WITH AN ALKALI-SOLUBLE WATER-INSOLUBLE CELLULOSIC COLLOID CARRYING A SOLID MATERIAL WHICH IS AN ABSORBENT OF SAID HEAVY GASES.
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Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3034947A (en) * 1956-04-25 1962-05-15 John R Conlisk Gas-aerosol filter material
US3162516A (en) * 1961-08-14 1964-12-22 Richard E Dwyer Method of filtering exhaust gases
US3192156A (en) * 1962-04-26 1965-06-29 Pittsburgh Activated Carbon Co Removal of hydrogen sulfide from water
US3237378A (en) * 1961-01-05 1966-03-01 Exxon Research Engineering Co Metallic-base adsorbents for heatless driers
US3502537A (en) * 1966-01-04 1970-03-24 Bondina Ltd Air-permeable protective materials
US3505006A (en) * 1966-12-29 1970-04-07 Bell Telephone Labor Inc Storage assemblies
US3702049A (en) * 1970-09-24 1972-11-07 Ewel J Morris Jr Device for cleaning polluted air
EP0048110A2 (en) * 1980-09-11 1982-03-24 United Kingdom Atomic Energy Authority Selective retention with composite materials
US4447243A (en) * 1981-08-17 1984-05-08 Dixie Yarns, Inc. Odor scavenging system
US4484938A (en) * 1982-01-28 1984-11-27 Nippon Soken, Inc. Total heat exchanger
US4592855A (en) * 1984-11-16 1986-06-03 Union Carbide Corporation Effervescent compositions
US4645519A (en) * 1984-06-06 1987-02-24 The United States Of America As Represented By The United States Department Of Energy Composite desiccant structure

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2286964A (en) * 1940-10-15 1942-06-16 Du Pont Sealing coating composition

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2286964A (en) * 1940-10-15 1942-06-16 Du Pont Sealing coating composition

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3034947A (en) * 1956-04-25 1962-05-15 John R Conlisk Gas-aerosol filter material
US3237378A (en) * 1961-01-05 1966-03-01 Exxon Research Engineering Co Metallic-base adsorbents for heatless driers
US3162516A (en) * 1961-08-14 1964-12-22 Richard E Dwyer Method of filtering exhaust gases
US3192156A (en) * 1962-04-26 1965-06-29 Pittsburgh Activated Carbon Co Removal of hydrogen sulfide from water
US3502537A (en) * 1966-01-04 1970-03-24 Bondina Ltd Air-permeable protective materials
US3505006A (en) * 1966-12-29 1970-04-07 Bell Telephone Labor Inc Storage assemblies
US3702049A (en) * 1970-09-24 1972-11-07 Ewel J Morris Jr Device for cleaning polluted air
EP0048110A2 (en) * 1980-09-11 1982-03-24 United Kingdom Atomic Energy Authority Selective retention with composite materials
EP0048110A3 (en) * 1980-09-11 1982-05-12 United Kingdom Atomic Energy Authority Improvements in or relating to composite materials
US4447243A (en) * 1981-08-17 1984-05-08 Dixie Yarns, Inc. Odor scavenging system
US4484938A (en) * 1982-01-28 1984-11-27 Nippon Soken, Inc. Total heat exchanger
US4645519A (en) * 1984-06-06 1987-02-24 The United States Of America As Represented By The United States Department Of Energy Composite desiccant structure
US4592855A (en) * 1984-11-16 1986-06-03 Union Carbide Corporation Effervescent compositions

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