US2135029A

US2135029A - Impregnation of porous materials

Info

Publication number: US2135029A
Application number: US32161A
Authority: US
Inventors: Ernest R Boller
Original assignee: EI Du Pont de Nemours and Co
Current assignee: EIDP Inc
Priority date: 1935-07-19
Filing date: 1935-07-19
Publication date: 1938-11-01
Anticipated expiration: 1955-11-01

Description

NOV. 1, I E jq' E 2, IMPREGNATION OF POROUS MATERIALS Filed July 19, 1955 PUMP 50205562 EEFEIGEEAT/ON wwr STFAM (IO/L5 -.mcuu'M CONDENSER PuMp BLOWER STEAM CO/LS TREAT/N6 ayu/vom EfCE/l/ING STE/1M STE/1M 00/ 5 mN/f colts I PEFP/GEEAT ,e SOLUTION a I 702466 can;

' filss'ousz SOLVENT EEFE/GEEATOE 570m 65 5 wig/6:24 T02 575W CO/LS BY I ATTORNEY.

Patented Nov. 1,. 1938 UNITED STATES PATENT OFFICE- 2,135,029 IMPREGNA'I'ION or roaous MATERIALS Ernest R. Boller,

Cleveland Heights, Ohio, as-

slgnor, by mesne assignments, to E21. du Pont de'Nemours & Company, W corporation of Delaware Application July 19, 1935, Serial No. 32,161

ilmington, Del., a

- In order to impregnate a porous material with I suitable impregnating agents, it is now the cus tomary practice to employ an aqueous menstruum. It is frequently disadvantageous to employ an aqueous vehicle for impregnating agents because water has a deleterious influence uponcertain porous materials. Cloth or,. rope,- for instance, may be caused to'shrink, and in some instances may be rather'severely damaged. An-

' other disadvantage arising from the use of aqueous vehicles is the relatively long time required efiectually to impregnate porous materials with Water solutions of impregnating agents, and the even longer time ordinarily required satisfactorily to dry the materials after impregnation.

The use of an aqueous'menstruum for impreg nating agents is particularly unsatisfactory when it is desired to impregnate wood. It is the custo- :5 mary practice, for instance, to preserve wood by submerging it in a water solution of a preserving salt, such as zinc chloride, and then injecting the solution into the wood by the use of pressure.

After a desired degree of penetration of the wood 80 has been effected, the aqueous solution is ordinarily allowed to drain from the pressure receptacle. Water which is retained in the wood must subsequently be removed by kiln drying or air seasoning.

36 The injection of water into the wood causes considerable swelling and, upon rying. the consequent shrinkage of the wood isattended by a certain amount of warping, checking, and raising of the grain. Theextent 01' this deterioration ot of course, upon the characteristics of the wood being treated'and, to

40 the wood depends largely,

a lesser degree, upon the care exercised in the treating and drying procedures. When the treated wood is to be employed in certain rela- 55 tions, this deterioration is not particularly disadvantageous, but wood which is warped and checked cannot satisfactorily be used for a large number of purposes.

Aqueous vehicles are further unsatisfactory because of the relatively long time and the high pressures required to eflfect a satisfactory impregnation of wood. Moreover, the large amount. oi time required to dry the wood after its imp egnation with an aqueous menstruum results in high q pment and operating costs it it is kiln dried,

and in high carrying charges if it is air seasoned. The customary processes of impregnating wood by-means of an aqueous vehicle have also been found disadvantageous by reason of the relatively large and expensive equipment required for the 5 ordinary pressureprocesses. In addition to the expense attendant upon the installation and maintenance of suchequipment, there is the additional disadvantage that the equipment is not readily adaptable to various types of wood which 10 require modified methods of treatment.

Aqueous vehicles ofler yet another disadvantage in that a large number of impregnating agents are not water soluble and cannot, therefore, be used in water solution. I '15 Considered together, the above enumerated disadvantages have prevented the impregnation of wood by the use of an aqueous menstruum in many commercial applications. It has been in;- practical to impregnate finished or semi-finished 20 lum r with suitable agents'for staining, fireprooflng, or preserving the wood. I It has been proposed to avoid the dimculties encountered when porous materials are impreghated. by the use of aqueous vehicles, by using non-aqueous menstruums. It has, for instance, been suggested that alcohol, or liquid hydrocarbons such as gasoline or kerosene be used. Such non-aqueous vehicle's display the same disadvantages asdo aqueous vehicles, to a greater or lesser extent, and they have the further disadvantage of being quite expensive. In addition to the test that the non-aqueous solvents heretofore employed are high in cost for an initial installatlon, their expense is rendered even greater by the fact that it is almost impossible to recover the solvent from the porous material. I when a porous material such as wood is to be impregnated with a preservative salt, such as zinc chloride, iifla non-aqueous menstruum is to be employed,.lt has been proposed to use alcoholic solutions of zinc chlori Alcohol causes warping and'checking of wood, though to a somewhat impregnation, there is, of course, a certain duction of wood, moreover,,makes it impractical to distill off the vehicles by the application of heat from an external source. Itis the ordinary practice to recover onlythe portion of the nonaqueous vehicle which can be drained from the wood, and-no attempt is made to recover the fluid retained in the wood.

Processes employing non-aqueous menstruums for the pressure impregnation of porous materials require equipment comparable in size and cost to that used in processes employing aqueous vehicles. Processes employing non-aqueous menstruums also requirerelatively long periods of time for 'the impregnating and drying operations.

It is an object of my invention to provide processes which can be employed for the impregnation of porous materials without damage thereto. It is a furtherobject of my invention to provide processes whereby wood maybe impregnated with desired impregnating agents without the deleterious swelling, shrinking, warping, checking, and raising of the grain which attends the use of most of the menstruums hitherto known. A still further object of my invention is to provide processes whereby finished lumber may satisfactorily be impregnated with suitable flreproofing, staining, and preservative agents. A still further object of my invention is to provide processes whereby a deep and uniform penetration of impregnating agents can quickly and economically be achieved. .A still further object of my invention is to provide processes which are low in cost, and which can readily be adapted to the condition of the porous material. Other objects of my invention will become apparent hereinafter.

My objects are accomplished, briefly, .by 'impregnating porous material with suitable impregnating agents carried in a non-aqueous menstruum which boilsat a temperature not substantiallyhigher than about 5 C.

The processes of my invention may advantageously be employed with a wide variety of porous materials, such as wood, textiles, rope, and the like. Such porous materials may be impregnated according to the processes of my invention with impregnating agents such as pigments, lakes, dyes, stains,'resins, gums, lacs, oils, waxes, parasiticides, and fireproofing compositions.

While the processes. of my invention are applicable to porous materials generally, they are particularly advantageous for the impregnation of wood, and are especially so when it is desired to obtain a relatively great depth of penetration or when .diflicultly penetrable species are to be treated.

As'has been above indicated, a wide variety of impregnating agents may be used accordingto my invention. Many water insoluble impregnating agentscan be dissolved in the non-aqueous menstruums of this invention, and it is thus possible to use such water insoluble impregnating agents in an economical and practical manner. For instance, such preservatives as beta-naphthol, tetrachlorphenol, and orthophenylphenol may be used-in a suitable non-aqueous menstruum which boils-not substantially above 5 C., such as dimethyl ether. I may also use mixtures of various impregnating agents.

According to the processes of my invention, I

i .may employ any non-aqueous menstruum which than 5 C. I may use, for instance, such com-1 pounds as dimethyl ether, propane, butane; and methyl chloride. It will be understood that I may use mixtures of such compounds with .each other or with higher boiling compounds, though in every instance it is preferred that the non-aqueous menstruum boil'at a temperature not sub stantially higher than about 5 C. In addition to using low boiling liquids and low boiling mixtures of the type above discussed, I may also em- 0 ploy low boiling compounds inwhich a suitable lower boiling material has been dissolved. I may, for instance, use liquid dimethyl ether in which is dissolved as much as 20 to about 25 per cent carbon dioxide. J 15 The above described menstruums are solvents for a wide variety of impregnating agents, but there may be found an impregnating agent which is not soluble in a commercially-available liquid which boils at a temperature not substantially 20 higher than about 5 C. In such an instance, some of the advantages of my invention may be obtained by dispersing the impregnating agent in the menstruum, but it is usually desirable to employ impregnating agents which are soluble in the 25 menstruum which .is to be used.

The impregnation of porous materials may be accomplished by simply immersing them in the non-aqueous vehicles. When wood is treated,

however, it is usually'preferred to inject the non 30 aqueous vehicle thereinto by the use of pressure.

Pressures up to the critical pressures of the substances used as vehicles maybe obtained by heating the liquid. =As the non-aqueous liquids used boil at about 5 C. or below, no large amount of heat will be required to obtain relatively high pressures, and, under many circumstances, satisfactorily high pressures may be obtained without the addition of external heat by reason of the normal pressure of the liquids at ordinary tem- 40 peratures.

The low boiling liquids which I employ are characteriged, "of course, by relatively low surface tensions and relatively low viscosities, and the imof time. This, of course, is very important from pregnation of wood according'to the processes of 45 an economic standpoint because smaller equip- 5 ment may be used for handling a given amount of lumber.

After a desired degree of penetration has been obtained, the liquid menstruum is drained .from

the wood. After the liquid has been drained off, 55

the liquid remaining in the wood can readily be removed therefrom by permitting it to boil ofi. Ordinarily, no addition of heat is necessary to effect an almost complete evaporation of the liquid menstruum, but. if desired. additional heat 60 may be supplied. The gas which results from the boiling of the liquid menstruum can be recovered and condensed, whereupon it may be used as a solvent for more or the impregnating agent.

I It will be apparent that the removal of the non- 65 aqueous low boiling menstruums of my invention ;is exceedingly easy of accomplishment, andit is to be noted that a substantially complete recovery of the menstruums is practical. The short time required to effect a separation of the liquid men- 70 struums from the wood is highly advantageous, ofcourse. f

In order that the preferred sequence of steps in a specific process for the impregnation of wood may be better understood, there is illustrated in 7 5- atypical process.

.Wood to be impregnated is placed in the treating cylinder, and a'solution of asuitable impregnating agent in a non-aqueous menstruum which boils at a temperature not substantially higher than 5 C. is admitted to the treating cylinder ,from the solution storage tank. The wood to be.

deris then connected to the solution storage 'ficient to supply the heat required to tank, which is at a higher temperature than the cylinder, and the solution of impregnating agent flows into the cylinder under its own pressure. The desired temperatures and the corresponding pressures are maintained in the treating cylinder by the useof steam coils. The desired temperature and pressure are maintained for the time required to effect the desired degree of penetration of the 'wood. At the end of this time, the line 'betweenth'e treating cylinder and the solution storage tank is opened, and the solution is forced from the treating cylinder into the solution storage, tank'which at this time, of

course, is at alower temperature and pressure than the treating cylinder.

After the solution has been drained from. the wood andforced into the solution storage tank,. the line between thecylinder and the solution; storage tank is closed, and the line from thetreating cylinder to the condenser is opened. The menstruum which has been retained in the wood distills therefrom and is condensed in the condenser from which it is led to a receiving tank.-

The temperature of the wood is ordinarily sufvaporize substantially all of the menstruum.

.The atmosphere of the vaporized menstruum which remains in the treating cylinder is finally swept out with air from a blower, and dissolved in a suitable solvent in a scrubber. From time to time the menstruum which has been dissolved in the scrubber is removed from the dissolving liquid by heating, and the vaporized menstruum is returned through the condenser to the receiving tank and then to the-solution storage tank.

The condensed liquid in the receiving tank is heated somewhat and forced, under its own pressure, through the dissolver where a desired amount of the impregnating agent is put into solution. It will be noted that a suitable storage tank for the liquid menstruum is'provided, which storage tank is equipped with heating and cooling means whereby the pressure maybe adjusted.

After the liquid menstruum has been evaporated from the wood and; any remaining gases have been swept from the cylinder by means of the blower, the wood, which is now entirely dry, can

be removed from the cylinder. The wood is then ready for use, and no further seasoning or drying is required.

Considering" my invention with more particular reference to certain illustrative impregnating agents and certain non-aqueous menstruums which have 'a boiling point not substantially higher than about 5 0., the following examples are given:

Example I Following the procedure above outlined, a

number of samples of finished wood were .subjected to a 5% solution of zinc chloride in dimethyl ether. Temperatures of from 40 to 50 the accompanying drawing a flow sheet of such completely [There was no discernible swelling, warping, or raising 'of tion ofwood.

g. were maintained with corresponding pressures froml30 to 150 pounds per square inch. These conditionswere maintained for 30 minutes. The

woods thus treated were as folows: California white pine, heart and sap, 1 x 2" x 4"; Wisconsin white pine, sap, x 2" x 4"; Douglas fir, heart, 1%," x-I A" x 4"; red oak, heart,

x 4" x 4". Allof. these specimens treated according'to the procedure of this example were impregnated with zinc chloride.

the grain of these finished pieces of wood.- I

Example II A cylinder of seasoned heartwhite oak, 3

in diameter and 4" long, was subjected to a 5% solution of zinc chloride in dimethyl ether for three hours at temperatures of 40 to 50 C., and

at corresponding pressures of to .pounds per square inch. The wood used in this example.

is practically impenetrable by aqueous solutions, but under the'conditions of' this example, approximately half of the wood was impregnated with zinc chloride. There was no apparent swelling, checking, or distortion of the wood.

Example 11 I Following the procedure of the above examples,

I a number of pieces of ponderosa pine window sash were treated with a 5% solution of zinc chloride in dimethyl ether. The treatment was. con-' ducted at 150 pounds per square inch pressure for thirty minutes for sapwood and forty-five minutes for heartwood. There was no perceptible swelling, warping, checking, .or roughening of the surfaces of the wood. Examination oftypical specimens showedcomplete penetration of the wood with zinc chloride, and'aboutone pound ofjzinc chloride was retained per cubic foot.

Example IV Following the procedure of Example 111, but using dimethyl ether containing dissolved therein about twenty per cent of carbon dioxide as the solvent for.zinc chloride, a number of pieces of finished lumber were impregnated Excellent results were obtained, and it is noted that a somewhat more rapid penetration of the wood seemedjto'be obtained thanvwhen the dimethyl .ether was used alone as a solvent.-

Example V Wood was impregnated with a 2% solution of copper naphthenate in a commercial mixture of Example VI A concentrated solution of tetrachlophenol in propane was used for the impregnation of wood. Verysatisfactory results were obtained.

Example VII A 1% solution of phenyl mercury oleate in butane was found satisfactory for the impregna- Eaiample VIII r It will readily be understood that numerous trative examples without departing from the spirit of my invention. The impregnating agent used and its concentration will depend, of course, upon the characteristics which it is desired to impart to the wood. It is to be noted that other impregnating agents, such as alpha-nitronaphthalene and 2-4-dichlor-alpha-naphthol, may be used in propane or butane, and other agents, such as beta-naphthol and dinitrophenol may be used in methyl chloride.

The pressures of treatment may also be widely varied, and they will be determined for each case by the penetration desired, the nature of the wood, the temperature of treatment, and the length of treatment. When materials-which can easily be impregnated are treated, it is, of course, unnecessary to use such high pressures, and the processes of my invention may, under some circumstances, advantageously be practiced at atmospheric pressures or at pressures only slightly above atmospheric.

It'will be understood that the scheme of operation illustrated in the accompanying drawing may be widely varied without departing from the spirit of my invention. Instead of condensing the vaporized vehicle by means of refrigeration, the gas'may be condensed by the use of-a compressor. It will be readily apparent, moreover, v that the processes already known for the impregnation of porous materials by the use or aqueous menstruums and by the use of high boiling nonaqueous menstruums may readily be. adapted, accordingto the teachings of my invention, to the use of non-aqueous menstruums which boil at temperatures no higherthan 5? C. 5

While I have shown certain specific impregnating agents, certain non-aqueous menstruums, and certain procedures and conditions of operation, it will be understgod that I do not intend to be restricted thereby, the scope of my invention being apparent from the following claims.

I claim:

1. In a process for the impregnation of a porous .material, the step comprising immersing the material in a liquid, non-aqueous menstruum which carries an impregnating agent, the nonaqueous liquid menstruum having a boiling point not substantially higher than about 1 C.

2. In a process for the impregnation of .a porous material, the step comprising immersing the material in a liquid, non-aqueous menstrumn in which is dissolved an impregnating agent, the non-aqueous liquid menstruum having agboiling point not substantially higher than about 1 C.

3. In a process for the impregnation of a porous material, the steps comprising immersing the materialjin a liquid, non-aqueous menstruum in which is dissolved an impregnating agent, the non-aqueous liquid menstruum having a boiling point not substantially higher than about 1 C.,

and after impregnation of the material, recovering the portion of themenstruum retained therein by volatilizing the menstruum therefrom.

4. In a process for the impregnation of wood, the step comprising immersing the material in a liquid, non-aqueous menstruum which carries an impregnating agent, the non-aqueous liquid have ing a boiling point not substantially higher than about 1 C.

5. In a process for the impregnation of wood,

the step comprising immersing the material in a liquid, non-aqueous menstruum in which is dissolved an impregnating agent, the non-aqueous the'steps comprising immersing the material in a liquid, non-aqueous menstruum in which is dissolved an impregnating agent, the non-aqueous liquid menstruum having a boiling point not substantially higher than about 1 C., and after impregnation of the material, recovering the portion of themenstruum retained therein by volatilizing the menstruum therefrom.

7. In a process for the impregnation of wood, a

the steps comprising treating the wood by injecting thereinto under pressure an impregnating agent dissolved in a liquid, non-aqueous menstru um which has a boiling point not substantially higher than about 1 C. and, after impregnation of thewood, recovering the portion of the menstruum retained therein by volatilizing the menstruum therefrom. 8. In a process for the impregnationof wood,

the stepsbomprising immersing the wood inaliquid, non-aqueous menstruum which has a boiling point not substantially above about 1 C.; and in which is dissolved an impregnating agent, sealing the wood and liquid menstruum in a closed receptacle, raising the temperature of the menstruum to obtain a corresponding pressure within the receptacle, withdrawing the liquid menstruum from the receptacle, andvolatilizing the portion of the menstruum retained in the wood to recover it therefrom.

9. In a process for the impregnation of wood, the steps comprising withdrawing air from the wood by preliminary vacuum, treating the wood under pressure with an impregnating agent dis- I solved in a liquid, non-aqueous menstruum which has a boiling point not substantially above about 1 C., and, after impregnation of the wood, recovering the portion of the menstruum retained therein by volatilizing the menstruum therefrom.

10; In. a process for the impregnation of wood,

the steps comprising impregnating the wood with a preservative dissolved in a liquid, non-aqueous menstruum which has a. boiling point not substantially above about 1 C., and, after impregnation oi! the wood,-recoverlng the portion of the menstruum retained therein by volatilizing the, menstruum therefrom.

11. In a process for the impregnation of wood,

the step comprising impregnating the wood by immersingit in liquid propane whicmcarries an impregnating-agent. 7/

' 12. In a process for the impregnation of wood, the step comprising impregnating the wood by immersing it in liquid butane which carries an impregnating agent. v

13. In a process for the impregnation of wood, the step comprising impregnating the wood by immersing it in liquid methyl chloride which carries an impregnating agent.

ERNEST R. BOLLER.