US1991335A - Process of treating vegetable fibers - Google Patents

Process of treating vegetable fibers Download PDF

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Publication number
US1991335A
US1991335A US423274A US42327430A US1991335A US 1991335 A US1991335 A US 1991335A US 423274 A US423274 A US 423274A US 42327430 A US42327430 A US 42327430A US 1991335 A US1991335 A US 1991335A
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sulphonates
cotton
boiling
mineral oil
bleaching
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US423274A
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Warren T Reddish
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TWITCHELL PROCESS Co
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TWITCHELL PROCESS Co
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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01CCHEMICAL OR BIOLOGICAL TREATMENT OF NATURAL FILAMENTARY OR FIBROUS MATERIAL TO OBTAIN FILAMENTS OR FIBRES FOR SPINNING; CARBONISING RAGS TO RECOVER ANIMAL FIBRES
    • D01C1/00Treatment of vegetable material
    • D01C1/02Treatment of vegetable material by chemical methods to obtain bast fibres

Definitions

  • the mineral oil sulphonates can also be used to accelerate the boiling out operations on other vegetable fibers.
  • These fibers are similar to cotton in that they are contaminated with similar impurities, but difier in that the fibers are composed mainly of alteration products of cellulose. Linen for example, is made up principally of a material called pecto cellulose, while jute is composed mainly of ligno cellulose,
  • the other vegetable fibers generally contain a greater percentage of impurities, in the case of flax or linen amounting to 25 to 30%, and they are usually more diflicult to penetrate than cotton, and therefore they are usually subjected to longer and more vigorous boiling out treatments.

Description

20 i terial' consisting mostly of fatty, waxy and pec- Patented Feb. 12, 1935 UNITED STATES P-ATE-NTQOFFICE Warren '1'. mean, Cincinnati, Ohio, assignor to The Twitchell Process Company, St. Bernard, Ohio, a corporation of Ohio No Drawing. Application Jannary 24,-1930, Serial No. 423,214
2 Claims.
This invention relates to textiles andparticularly to the manufacture of textiles from vegetable fibers such as cotton, linen, jute, and the like.
The invention is particularly directed to the treatment of the vegetable fibers for the purpose of removing the natural impurities with which the fibers are contaminated.
Since cotton is the most widely used vegetable fiber, and since the impurities associated with the cotton fiber and the methods of removing these impurities are typical of most of the vegetable fibers, a consideration of the nature of the .impurities present in the cotton fiber and the difficulties encountered in their removal, will serve admirably to illustrate the utility of the treating process which is herein disclosed.
The vegetable fibers in their natural state consist of filaments of cellulose and modified cellulose impregnated and coated withprotective matinous substances. There are also present certain pigments, and in the cotton, tiny particles known as motes and shives. All of these materials must be removed from the cellulose fibers prior to the time the fabric is completed in the sense of being ready for sale and use.
Generally speaking, the fatty and waxy materlals are useful on the fiber during theprocesses which it undergoes in being manufactured into a fabric. These materials protect the cellulose it self during thespinning, weaving, knitting, etc., from abrasion or physical injury and further tend to lubricate the fiber, thus assisting rather than hindering these operations. However, after the textile fabric has been constituted the presence of the fatty or waxy matters is highly undesirable for the reason that most textiles are either bleached or dyed or printed and the fatty or waxy material protects the fiber from the bleaching or dyeing solutions or from the printing pastes.
It is well known that water or aqueous solutions and waxy or fatty matter are repellant to each other so the difflculties of treating a fabric covered with waxy or fatty matter with a water solution can be readily appreciated. Now, this fatty and waxy matter not only coats but impregnates the cellulose filaments. or fibers and it is very difilcult to remove completely all of this fatty or waxy material.
The speed with which the bleaching, dyeing and printing operations can be carried on de-' pends to a very great extent on the completeness with which this fatty or waxy material is re- It has therefore been customary in the past to 0 subject the fabric to what is known as kier boiling. This kier boiling operation is carried out by boiling the cotton in closed vessels (kiers) under pressure, with dilute alkalies such as sodiumcarbonate, sodium hydroxide and lime. The time of kier boiling varies according to the concentration of the alkali used, the pressure employed and the quality of cotton being treated. From 0.5 to 5.0% alkali solutions may be used, the pressure may range from 0 to 60 pounds, and the time required from 4 to 16 hours.
Certain of the impurities which contaminate the cotton fiber, such as the pectin compounds, oil and coloring matter, are fairly easily removed by the kier boiling and subsequent bleaching treatments, while the removal of the waxes, shives and mineral oil stains is rather difficult.
The pectin compounds, which form a large portion of the impurities, are very complex in nature, and their chemical composition and properties are not well understood. The pectin compounds are easily removed by treatment with warm alkaline solutions in the form of salts, and therefore they are easily removed'bythe ordinary kier operations. 35
The oil present in the cotton fiber appears to be identical with cottonseed oil, and is probably obtained from the seed to which the fiber is attached. It is saponified and rendered soluble by the alkaline kier liquors.
The coloring matter which is usually present in only small amounts is removed to some extent in the ordinary kier boiling operation, and entirely removed by bleaching.
The motes, or shives, wax and mineral stains, constitute those impurities whose removal makes necessary the long continued pressure boil to. which cotton must be subjected in order to render it suitable for the finishing operations which follow.
The shives are only slowly decomposed by hot caustic solutions, and if they are not thoroughly decomposed, they may remain in the goods after the bleaching operation, and show up as brown or yellowish spots in the finished goods.
Mineral oils are not saponiflable, and can best be removed by long continued treatment, and even then are apt to cause trouble in the bleaching process.
The cotton wax which coats the cotton fiber is very difiicult to saponify, and it is removed only by long continued boiling under pressure. The
complete removal of the wax is very necessary,
as it renders the goods water repellant. The presence of wax makes bleaching more diflicult, but exerts a more deleterious efiect on the final finishing operations such as the dyeing, sizing and especially printing operations.
The prolonged boiling necessary for complete purification is undesirable, not only with regard to the time and additional equipment and power needed, but also as regards the bad efiect of a long continued treatment'at high temperatures upon the appearance, elasticity, tensile strength and chemical properties, oi the cotton fiber.
The object of this invention is to provide a process which is quick and relatively cheap, for removing impurities from cotton or other vegetable fibers inanv form but particularly cotton and other vegetable fiber fabrics.
Another object of the invention is to provide the process of removing impurities from fabrics manufactured from cotton, linen, jute, and the like, which is suificiently rapid and simple to permit continuous treatment as distinguished from batch boiling.
The invention resides in the determination that an aqueous solution of mineral oil sulphonates possesses the requisite power of dissolving and removing the natural impurities from the fibers or fabrics which permits complete removal to be efiected without the use of temperatures, pressures or periods which inhibit a continuous process and the economies attendant thereto. The mineral oil sulphonates are a class of bodies which are derived from the treatment or mineral oils with strong sulphuric acid, fuming sulphuric acid or sulphur trioxide. These bodies are commercially available at present as a result of the practice of the Petrofi-Humphreys process of refining medicinal and technical white oils or light colored oils. The sulphonates available fall under two general headings, the A layer or oil soluble sulphonates, and the B layer or readily water soluble sulphontes. The A layer sulphonates are known as mahogany sulphonates and are recovered from the oil layer in the Petrofi-Humphreys process, whereas the B layer sulphonate are recovered from the sludge layer in the practice of said process. The mahogany sulphonates, as a class, are preferred in this process of dewaxing cotton through the sludge layer sulphonates can be used.
It is further preferable that the mahogany sulphonates be relatively free from entrained oil,
I particularly if they are obtained from American petroleums or similar oils. One method of obtaining these pure sulphonates is disclosed in Fischer and Reddish Patent No. 1,703,838 issued February 26, 1929. These sulphonates so purifled are possessed of peculiar and unexpected detheir water repellant nature, and become very absorbent. In this condition they are very readilybleached, and are entirely suitable for turther finishing operations, such as dyeing, printing and sizing, as they are readily penetrated by the various solutions used in these operations. The shives are also more easily disintegrated by the solutions containing mineral oil-sulphonates and any remaining traces are very readily removed by the bleach solutions. Mineral oil stains are removed and cause no-bleaching dimculties. The fabrics are easily wet out by solutions containing mineral oil sulphonates, and as a re-.
sult the solutions penetrate quickly and uniformly.
The mineral oil sulphonates also possess ing vegetable fibers. The mineral oil sulphonates are extremely stable towards the action of boiling alkaline solutions, and the sulphomc groups are not split off by this treatment. mineral oil sulphonates are also resistant to the action of hard water, so that difiiculties due to the formation of insoluble magnesium or calcium soaps are entirely obviated.
This process which greatly reduces the treating time or kier boiling time without increasing the concentration of the caustic and bleaching solutions, and still produces a cotton which is completely dewaxed and easily bleached and finished, is advantageous not only as regards the reduction in time required-and accordingly greater production-per unit of equipment and reduced power costs, but also in regard to the improvement in the feel and resiliency of the cottgn, which is harshened and rendered less resilient by long boiling. However, as the time of boiling can be greatly reduced, and since the operation can be conducted successfully under ordinary pressures, it becomes possible to carry out the operation as a continuous process. Using mineral oil sulphonates as boiling assistants and avoiding the use of excessive strengths oi caustic and bleach solutions such as might iniure the fiber, l have successfully boiled and bleached eight ounce duck to a pure white, free from shives, in one hour, allowing one-half hour for a boil and onehalf an hour for bleaching. Accelerating these operations to the point where continuous operation is possible results in a great saving in labor costs.
I have also investigated the use of mineral oil sulphonates in conjunction with those processes in which the kier boiling and bleaching is carried out in one operation with the aid of oxygen producing bleaching agents, such as sodium and hydrogen peroxide. The mineral oil sulphonates also aid in these processes by accelerating the decomposition oi the shives and removing the waxy material. The bleach is also whiter and the material extremely water absorbent.
The following examples illustrate the use of the process: 1
Example 1 Samples of 8 oz. duck and light muslin were boiled for one hour at atmospheric pressure in 25%, .5%, 1.0% and 2.0% solutions gilt-sodium hydroxide. The samples were then thoroughly rinsed and immersed for a iew minutes in arr 'lw. bleaching powder; solution and then e posed to the air for one hour. After rinsing, they were given a sour in 1%. hydrochloric acid, thengrinsed and dried.
A second set of samples were boiled in similar The ' .15 other properties which recommend their use in treatabove refer specifically caustic solutions to which had been added from .25% to 2% of mineral oil sulphonates. The rinsing and bleaching treatments were carried out in the same manner. I
The dried samples were examined for absorbency by placing drops of water on the surface of the cloth. Those samples which were boiled with caustic alone were very water repellant, and the drops of water were not absorbed even after 15 minutes. The samples boiled with mineral oil sulphonate were extremely absorbent, the water being absorbed instantly. These samples also dyed readily in the cold with direct cotton dyestufis, while the samples boiled without the aid of the mineral oil sulphonates required a hot bath and a longer time-and did not dye evenly. The same action was observed in attempting to apply a printing paste.
No shives were noticeable in those samples boiled with the aid of sulphonates, while shives were quite apparent in those samples boiled without the aid of sulphonates.
Example 2 An experimental continuous boiling and bleaching machinewas constructed such that cotton cloth samples cut in the form of strips were drawn through a series of baths as follows: First, a boiling bath containing 1% sodium hydroxide and 1% true sulphonate; second, a rinse bath; third, a 3 Tw. bleaching powder solution; fourth, a rinse bath; fifth, a 1% hydrochloric acid solution, and, sixth, a rinse bath. The samples were drawn through at such a rate that each portion of the cloth received a thirty minute boil.
The resulting material was white, free from shives, and very absorbent.
Example 3 A sample of 8 oz. cotton duck was boiled for one-half hour in a bath containing .2% of sodium peroxide, .l% of sodium hydroxide and 1% of true sulphonate, and a second sample in a similar bath without mineral oil sulphonate. The sample boiled with the aid of the true sulphonate took a noticeably whiter bleach than the sample boiled without the true sulphonate. The latter sample was also very water repellant, and the former extremely absorbent.
Although the discussion and examples given to cotton, I have found that the mineral oil sulphonates can also be used to accelerate the boiling out operations on other vegetable fibers. These fibers are similar to cotton in that they are contaminated with similar impurities, but difier in that the fibers are composed mainly of alteration products of cellulose. Linen for example, is made up principally of a material called pecto cellulose, while jute is composed mainly of ligno cellulose, The other vegetable fibers generally contain a greater percentage of impurities, in the case of flax or linen amounting to 25 to 30%, and they are usually more diflicult to penetrate than cotton, and therefore they are usually subjected to longer and more vigorous boiling out treatments. The property of mineral oil sulphonates of increasing the penetration of kier liquors, and at the same time emulsifying the fatty and waxy impurities, assists greatly in accelerating the boiling out operation.
Example 4 Samples of jute were boiled in 1% caustic and in 1% caustic containing 1% of true sulphonate. Both samples bleached to a light yellow after 8 hours in a 3 Tw. bleaching powder solution. The jute boiled with the aid of true sulphonate, had a better feel and. was very easily penetrated by a .2% solution of a direct black cotton dye. The jute boiled without the aid of the sulphonates was harsher, and dyed only after long immersion in the dye bath.
In all cases the mineral oil sulphonates are applicable to the now used kier boiling operations under pressure and their use results in much greater speed and efliciency. Therefore the use of pressures above atmospheric may be used when desired in practicing the above disclosed dewaxing process though one of its advantages is that the high pressures may be omitted without prolonging the time of treatment to an impractical length.
The term natural impurities employed in the following claims, is used to denote the products of nature such as wax, oil, shives, motes, pectin, etc. on a textile fiber of vegetable origin such as cotton, linen, jute or the like.
The examples given above are only intended to illustrate the application of the process, and I do not wish to limit the invention except as stated in the following claims.
Having described my invention I desire to be limited only by the ensuing claims:
1. The process of removing natural impurities from vegetable fiber, which comprises, subjecting said fiber to a boil at atmospheric pressure 'in an aqueous solution containing approximately 1% sodium hydroxide, and .1-2.% true mahogany sulphonates. for a period of substantially 30 minutes.
2. The process of removing natural impurities from vegetable fiber, which comprises, subjecting said fiber to a boil in an aqueous solution containing approximately 1% sodium hydroxide, and .1-2.% true mahogany sulphonates.
WARREN T. REDDISH.
US423274A 1930-01-24 1930-01-24 Process of treating vegetable fibers Expired - Lifetime US1991335A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2700608A (en) * 1950-12-27 1955-01-25 Procedes Lourd Soc D Expl Des Process for degumming vegetable textile fibers
US2790699A (en) * 1953-01-20 1957-04-30 Ici Ltd High speed process for desizing and bleaching cotton goods
US3384444A (en) * 1964-06-29 1968-05-21 Reeves Bros Inc Production of lightfast jute
US4347100A (en) * 1981-05-21 1982-08-31 The Chemithon Corporation Strength of paper from mechanical or thermomechanical pulp

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2700608A (en) * 1950-12-27 1955-01-25 Procedes Lourd Soc D Expl Des Process for degumming vegetable textile fibers
US2790699A (en) * 1953-01-20 1957-04-30 Ici Ltd High speed process for desizing and bleaching cotton goods
US3384444A (en) * 1964-06-29 1968-05-21 Reeves Bros Inc Production of lightfast jute
US4347100A (en) * 1981-05-21 1982-08-31 The Chemithon Corporation Strength of paper from mechanical or thermomechanical pulp

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