US3850137A

US3850137A - Apparatus for use in processes for producing coatings on surfaces

Info

Publication number: US3850137A
Application number: US00285313A
Authority: US
Inventors: M Prust; W Glassman
Original assignee: Individual
Current assignee: Individual
Priority date: 1972-08-31
Filing date: 1972-08-31
Publication date: 1974-11-26
Anticipated expiration: 1991-11-26
Also published as: GB1425379A; BE804287A; CA990501A; DE2343997A1; AU5981973A; IT990434B; JPS49100158A; AU475398B2; FR2198392A5

Abstract

A process for producing a chromium protective coating on a zinc or cadmium surface the surface has applied thereto an aqueous composition including chromium, perchlorate and fluoride ions. The apparatus by which the liquid composition is applied to a strip moving through an application station includes a provision for rinsing the surface if the strip is stopped for longer than a predetermined time in the station. The rinse liquid is collected and is used to replenish the liquid composition.

Description

United States Patent [191 [111 3,850,137 Prust et al. [4 Nov. 26, 1974 [5 APPARATUS FOR USE IN PROCESSES FOR 3,121,024 2/1964 Wampler et al. 118/8 x PRO CO ON SURFACES 3,166,441 l/1965 Rylka 118/325 3,220,377 11/1965 Good 118/8 [76] Inventors: Michael Ward Prust, 397 Kerman T a l gzg ifsg g zg z Primary Examiner-John P. McIntosh Drewry Ave Town of winowdale, Attorney, Agent, or FirmStanley J. Rogers Ontario, both of Canada [22] Filed: Aug. 31, 1972 [57] ABSTRACT [21] Appl. No.: 285,313 A process for producing a chromium protective coating on a zinc or cadmium surface the surface has applied thereto an aqueous composition including chro- [52] US. Cl 118/8, 118/117, 111184231265, mium, perchlorate and fluoride ions The apparatus by [51] Int Cl 305C 5/00 B05: 1 H1O which the liquid composition is applied to a strip mov- [58] Fie'ld 18/8 316 117 ing through an application station includes a provision 7 R for rinsing the surface if the strip is stopped for longer than a predetermined time in the station. The rinse [56] References Cited liquid is collected and is used to replenish the liquid UNITED STATES PATENTS compmmon' 2,775,952 1/1957 Schur 118/8 6 Claims, 1 Drawing Figure l n, I I K I 3 2324 a 0 -17 APPARATUS FOR USE IN PROCESSES FOR PRODUCING COATINGS ON SURFACES FIELD OF THE INVENTION This invention is concerned with apparatus for use in 5 processes for producing coatings on surfaces, such as chromium conversion coatings on surfaces of zinc or cadmium.

REVIEW OF THE PRIOR ART A continuing problem exists in the field of protective coatings of zinc and cadmium applied to a substrate, such as a steel strip or article, to protect it against corrosion. The zinc or cadmium protective coating itself will corrode in time to give a white or whitish deposit commonly known as storage stain or white rust. It is common therefore to apply a thin protective coating to the zinc or cadmium surface which usually consists of a chromium compound or compounds and is known as a conversion coating.

The conversion coating usually is formed by applying a suitable aqueous solution containing chromium to the zinc or cadmium surface, the solution reacting with the surface to form a thin gel-like film of complex chromates. Thefilm is substantially non-porous to moisture, and also is non-crystalline, so that it provides an adequate paint bond. Examples of processes for producing such a coating are given in US. Pat. No. 3,457,124, issued July 22, 1969 to Cowles Chemical Company, the solution including specified amounts selected from sodium dichromate, chromic acid,sulfamic acid, ammonium sulphate, boric acid, sodium silicofluoride and nitric acid.

The solutions employed in such processes are highly reactive, and therefore corrosive, and the timeof exposure of the strip or article thereto must be closely controlled if undesired effects such'as discolouration or etching are to be avoided. In commercial practicewith high'speed machines it is not always possible to avoid line stoppages, which will result in long exposure times and the production of a section of unacceptable material in the strip, which may reduce the commercial value of the whole strip.

SUMMARY OF THE INVENTION It is the principal object of the present invention to provide a new apparatus for producing a coating on a surface by the application of a liquid composition thereto.

It is a more specific object to provide such apparatus that can be used with highly reactive liquid compositions with the possibility of avoiding the deleterious results of unexpected stoppage or slowing of the apparatus.

In accordance with the present invention there is provided apparatus for the application ofa liquid composition to a surface of a moving strip at an application station, the apparatus comprising means for moving the strip through the liquid application station, applying means at the station for applying the liquid composition and a rinse liquid to the surface, a source of the liquid composition to be applied, feeding means. operative to feed rinse liquid from the source thereof to the applying means. means responsive to slowing or stopping of the strip resulting in exposure of the strip at the station to liquid composition for longer than a predetermined period of time for stopping operation of the liquid comreturn means at the station receiving excess rinse liquid and returning it to the source thereof; and pipe means including valve means connecting the source of liquid composition with the source of rinse liquid to permit the supply of rinse liquid to the liquid composition source for replenishment of the liquid composition.

DESCRIPTION OF THE DRAWING The accompanying drawing is a schematic diagram of an apparatus for carrying out a typical process of the invention making use of compositions in accordance with the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention is described as applied to the production of a chromium protective coating on the surfaces of galvanised steel strip, indicated in the drawing by the reference 10. As illustrated schematically by the drawing the strip is passed by rolls 11 to a liquid application station indicated by 12, and passes from the station via a pair of squeeze or pressure rolls 13 to further stages of the apparatus in which it is dried and coiled. The arrangement of these further stages will be apparent to those skilled in the art and therefore further description is not required for a complete description of the invention.

An aqueous solution comprising a composition in accordance with the invention is stored in a tank 14 and fed from there via pump 15, valve 16, pipe 17, automatically controlled valve 18 and header 19 to two sets of spray nozzles 20, which are disposed above and below the strip and direct sprays of the liquid on to the surfaces thereof. Excess liquid that runs from the strip is collected by a catch basin 21 and returned to the tank 14 via automatically controlled valve 22, valve 23 and pipe 24.

' A second tank 25 at a higherlevel than tank 14 contains rinse water which can be fed when required to the spray nozzles 20 via pump 26, pipe 27 and automatically controlled valve 28. As with the coating producing composition, the rinse liquid draining from the strip is' received by the catch basin 21 and returned to the tank 25 via an automatically controlled valve 29, valve 30 and pipe 31. The tank I4 is heated and maintained at the required elevated temperature by any convenient means, which are not illustrated, and the tanks 14 and 25 are connected by a pipe 32 and valve 33 to permit the contents of tank 25 to be used as make-up water for the liquid in tank 14 when needed. The contents of tank 25 (the temperature of which may also be controlled if required) are replenished when required from any suitable source of demineralized water via a pipe 34 including valve 35.

In operation of the apparatus the strip 10 unwinding from its supply reel passes at substantially constant. speed through the station where it is sprayed with liquid from the tank 14. Excess liquid is removed from the strip, and some control of the thickness of the resultant protective coating is provided by the pressure rollers 13, which are pressed intp contact with one another at a predetermined pressure by air-operated motors 36;

The speed of movement of the strip, and the distance between the nozzles 20 and the rollers 13, is made such as to give the desired effective immersion time of the strip in the liquid, which typically will be a period of from 1 to seconds.

The fact that the strip is moving, and perhaps also the speed at which it is moving through the station 12, is determined by any suitable detector which, in this embodiment, is illustrated as a detector 37 coupled to the rolls 11. The detector controls relay 38 which in turn controls the operation of the

valves

18, 22, 28 and 29 and of the pumps and 26. Under normal conditions of operation the relay 38 is operative to maintain the

valves

18 and 22 open, the

valves

28 and 29 closed, the pump 15 fully operative, and the pump 16 inoperative, or perhaps idling with the pressure relieved by a relief valve 39. Upon the detector 37 sensing that the speed of the strip has dropped below a predetermined value,

the relay 38 is operative to close the

valves

18 and 22 and stop the pump 15, cutting off the supply of the liquid from the tank 14. After a short variable period of time the

valves

28 and 29 are opened and the pump 26 operated to supply rinse water to the nozzles and rinse the liquid from the strip, thereby preventing excessive exposure of that part of the strip to the effect of the liquid, which usually will render it unfit for commercial usage because of discolouration. Normal operation will be resumed when the strip again is moving at above the minimum speed. The length of the abovementioned period is such as to permit normal short stoppage of the line without operation of the rinse apparatus.

Other control systems for obtaining an equivalent operation will be apparent to those skilled in the art from the explanation above of one suitable scheme of such operation.

The control of the pressure applied to the strip by the rollers 13 is found to be important in obtaining the desired results, and will be discussed in detailbelow. lt is found necessary in practice to change the rolls relatively frequently as they becomeworn and to re-work them to the required profile, while will change the weight of the rolls thus altering the pressure control characteristic. This effect is avoided in apparatus in accordancewith the invention by providing that the pres sure motors 36 are double-acting cylinders, the upper and lower parts ofthe cylinder being fed independently with compressed air from pipes 40 and 4] including

valves

42 and 43 respectively. Thus, when a new set of rolls has been installed, air is supplied-from pipe 40 to the lower part of the cylinder until the weight of the upper roller is just fully supported; the required air pressure is now established in the upper part of the cylinder and will determine the squeezing effect of the rollers independently of the weight thereof.

As explained above in the brief discussion of the prior art numerous attempts have been made in the past to apply to a zinc or cadmium surface a chromium conversion" or passivation film to provide protection against white rust or storage stain. Such films or coatings are also found to increase the paintability of the resulting surface. The exact composition of these films is not known, beyond the fact that they are complex chromate compounds incorporating metal ions of the surface to which they applied, Spectrophotometric analysis shows that the chromium is present in both a water soluble hexavalent form and an insoluble trivaconstituents of the aqueous coating composition of the present invention are a source of chromium ion, a source of perchlorate ion, and a source of fluoride ion. the chromium ion being the only metallic ion present therein. For the purposes of this definition ammonium and like complex ions (e.g., H is not a complex ion) that act as metallic ions are regarded as metallic ions. The pH value of the solution is made less than l.l5 and preferably is in the range 0.9 to 1.0, with a preferred minimum of 0.8.

It is believed that the absence of other metallic ions from the composition is a principal reason for the observed reduced sludge formation in the system. An-

other reason for lessened production of sludge is believed to be that the composition does not contain a buffering agent or agents, the most common of which are usually solid materials with a tendency to form insoluble compounds that will settle as sludge. The avoidance of sludge deposits is of course important in a commercial system to avoid the need for elaborate filter arrangements and to prevent blocking of the pipes by sludge particles, etc.

Owing to the high reactivity of the composition there is a tendency for metallic ions to enter the system if the pipes, tanks, etc., are of materials that are attached and precautions should be taken against this, as will be apparent to those skilled in the art. Another possible source of undesired extraneous metallic ions is the water used in the preparation and make-up of the aqueous solution and demineralised water should be used. The demineralisation should be such that the water has a resistance of more than 100,000 ohms.

The chromium ion is supplied to the solution most conveniently in the form of anhydrous chromium trio'xide, in which the chromium is in hexavalent form. This compound can constitute ,a convenient medium for specifying the required concentration of the chromium in the solution, which should be present as ion in the amount of 5 to 15 grams per litre, preferably 9 to 13 grams per litre. The corresponding quantities of the trioxide to be added are 10 to 30 grams per litre, preferably 18 to 25 grams per litre. The calculation of any other suitable material added to the solution will be apparent to those skilled in the art.

The perchlorate is added in the form of 60 percent perchloric acid to provide the required amount of ion of 0.5 to 0.85 grams per litre, and forthis concentration the solution should contain from 0.3 to 0.5 ml per litre of the said 60 percent perchloric acid. The fluoride ion conveniently is added as 48 percent hydrofluoric acid to provide from 0.l to 0.27 grams per litre of the fluoride ion, preferably 0.15 to 0.27 grams per litre, and this amount of ion requires the addition of about 0.1 to 0.25 ml per litre ofthe acid, preferably 0.15 to 0.25 ml per litre.

The usable operating temperature range for the solution is l50F to 200F, while the preferred temperature range is F to F. With the high reactivity the time of application is of the order of l to 10 seconds only, and the provision for rinsing described above is made operative if the exposure time increases to above 15 seconds. An excessive exposure time is indicated by brown discolouration and even etching of the zinc sur face.

The exact mechanism for the formation of the chromate film is not known to the applicants at this time, and accordingly the invention disclosed and claimed herein is not to be limited by any mechanism which is postulated at this time. The composition solution in contact with the zinc or cadmium surface generates hydrogen which is believed to reduce some of the hexavalent chromium to trivalent chromium, some of which may then be oxidised by the perchlorate ion back to the hexavalent state to balance the relative concentrations in the solution. The balance of the trivalent chromium goes into film formation on the zinc or cadmium surface. The trivalent chromium is believed more effective than the hexavalent form in combining with the fluoride ion, with which it complexes readily during film formation.

As will be appreciated from the small exposure times required the reaction involved takes place extremely rapidly and it appears to be a characteristic of films produced in accordance with this invention that the ratio of trivalent to hexavalent chromium therein always is about 2:1. However, excellent performance has been achieved with film weights outside this ratio, so that some form of balanced mechanism appears to be operative, whereas no consistent ratio is obtained with prior processes known to the applicants.

An examination of typical films produced shows trivalent chromium in the amount of from about 5 to about 12 micrograms per sq. inch (m.s.i.) while the hexavalent form is present in the amount of from about 2 to about 7 m.s.i., giving a total chromium content of from about 7 to about 19 m.s.i., most usually in the neighbourhood of about 16 m.s.i. This thickness may be compared to the usual thickness of about 9 m.s.i. obtained with known systems. Excellent results have also been achieved with film weight outside these values.

The films produced by the application of the invention are found to be unexpectedly much more protective than those of known prior methods. One test known as the humidity cabinet test involves the use of a Cleveland condensation tester cabinet having its interior maintained at 100F, wherein strips of galvanized steel are suspended above a water trough, the side ex posed to the trough being at the said temperature of 100F, while the other side is at the ambient temperature, usually about 70F. The humidity of the cabinet interior is 100 percent and the water that condenses on the inner surface trickles back into the trough, giving the effect of a constant exposure to a rainy atmosphere. The strips are maintained under this condition until visual inspection shows that about l percent of the zinc coating has corroded to white rust. With the prior coatings known to the applicants an average exposure of 30 hours was sufficient to produce the specified corrosion, while this degree of attack is only obtained with the processes etc. of this invention after an exposure of about 400 1,000 hours.

In another test known as the salt fog test (A.S.T.M. No: Bl 17-62) the strips are sprayed with a fine spray of percent salt solution at 100F. With known prior art films an exposure of about l0 hours was sufficient to produce the specified degree of corrosion, while strips treated in accordance with this invention only showed such attack after about 100 hours. It is known that a mere increase in thickness of the film does not necessarily increase the protection afforded thereby, and these improved results indicate that the films obtained are not only thicker, but also are more impervious to penetration by water vapour etc. It is that the hexavalent chromium is considerably more mobile in the film forming complexes than the trivalent form, in addition to being more soluble, and does operate to provide a sealing mechanism whereby the mobile hexavalent ion migrates to potential holes in the film and reacts readily with the zinc to close such holes. However, it is the trivalent form complexed with the zinc and the fluorine that provides the essential protective film. The excess solution removed by the pressure rolls has the chromium predominantly in the hexavalent form because of its higher solubility and concentration.

Although the invention has been described as applied to the protection of zinc surfaces, it can also be applied to the corresponding protection of zinc alloy surfaces exhibiting the necessary reactivity toward the compositions, and to the protection of cadmium surfaces.

We claim:

1. Apparatus for the application of a liquid composition to a surface ofa moving strip at an application station, the apparatus comprising means for moving the strip through the liquid application station, applying means at the station for applying the liquid composition and a rinse liquid to the surface, a source of the liquid composition to be applied. feeding means coperative to feed liquid composition from the source thereof to the applying means, a source of rinse liquid, feeding means operative to feed rinse liquid from the source thereof to the applying means, means responsive to slowing or stopping of the strip resulting in exposure of the strip at the station to liquid composition for longer than a predetermined period of time for stopping operating of the liquid composition feeding means and starting operation of the rinse liquid feeding means to rinse liquid composition from the strip at the station, liquid composition return means at the station for receiving excess liquid composition and returning it to the source thereof, rinse liquid return means at the station receiving excess rinse liquid and returning it to the source thereof; and pipe means including valve means connecting the source of liquid composition with the source of rinse liquid to permit the supply of rinse liquid to the liquid composition source for replenishment of the liquid composition.

2. Apparatus as claimed in claim 1, wherein the liquid composition applying means and the rinse liquid applying means are constituted by a single applying means, the liquid composition feeding means include valve means that are closed in response to said stopping or slowing of the strip to stop feed of liquid composition to the applying means, and the rinse liquid feeding means include valve means that are opened in response to said stopping or slowing of the strip to feed rinse liquid to the applying means. I

3. Apparatus as claimed in claim 1, and including means for removing excess liquid composition from the strip surface before the strip leaves the station.

4. Apparatus for the application of a highly reactive liquid composition to a surface of a moving metal strip at an application station, the apparatus comprising means for moving the metal strip through the liquid application station, spray means at the station for applying the liquid composition and a rinse liquid to the surface, a source of the liquid composition to be applied, a pump and pipe means including a valve connecting the spray means and the liquid composition source and operative to feed liquid composition to the spray means, a source of rinse liquid, a pump and pipe means including a valve connecting the spray means to the rinse liquid source and operative to feed rinse liquid to the spray means, means responsive to slowing or stopping of the strip resulting in application of liquid composition to the strip for longer than a predetermined period of time to close the respective valve for stopping feeding of liquid composition to the spray means, and opening of the respective valve to start feeding of rinse liquid to the spray means, liquid composition return means at the station for receiving excess liquid composition and returning it to the source thereof, rinse liquid return means at the station receiving excess rinse liquid and returning it to the source thereof; and pipe means including valve means connecting the source: of liquid composition with the source of rinse liquid to permit the supply of rinse liquid to the liquid composition source for replenishment of the liquid composition.

5. Apparatus as claimed in claim 4, wherein the liquid composition return means and the rinse liquid return means comprise catch means at the station for receiving excess liquid composition and excess rinse liquid, pipe means including a valve for returning the excess liquid composition to the source thereof, and pipe means including a valve for returning the excess rinse liquid to the source thereof, the said responsive means being operative upon said slowing or stopping of the strip to close the respective valve to stop return of caught liquid to the liquid composition source and to open the respective valve to start return of caught liquid to the rinse liquid source.

6. Apparatus as claimed in claim 4, and including means for removing excess liquid composition from the strip surface before the strip leaves the station.

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,850,137 Dated 26th November, 1974 Inventor(s) Michael Ward Prust et al It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

On the cover sheet insert [73] Assignee:

Dominion Foundries and Steel, Limited, Hamilton, Ontario, Canada Signed and sealed this 1st day of April. 1975.

f r 1-. 1, r \QLAL) fittest:

C. E-LXRSHALL DANE Commissioner of Patents and Trademarks :J Attesting O" USCOMM-DC 60376-P69 FORM PO-105O (10-69) w u.s. GOVERNMENT PRINTING OFFICE I969 o-sss-su

Claims

1. Apparatus for the application of a liquid composition to a surface of a moving strip at an application station, the apparatus comprising means for moving the strip through the liquid application station, applying means at the station for applying the liquid composition and a rinse liquid to the surface, a source of the liquid composition to be applied, feeding means coperative to feed liquid composition from the source thereof to the applying means, a source of rinse liquid, feeding means operative to feed rinse liquid from the source thereof to the applying means, means responsive to slowing or stopping of the strip resulting in exposure of the strip at the station to liquid composition for longer than a predetermined period of time for stopping operating of the liquid composition feeding means and starting operation of the rinse liquid feeding means to rinse liquid composition from the strip at the station, liquid composition return means at the station for receiving excess liquid composition and returning it to the source thereof, rinse liquid return means at the station receiving excess rinse liquid and returning it to the source thereof; and pipe means including valve means connecting the source of liquid composition with the source of rinse liquid to permit the supply of rinse liquid to the liquid composition source for replenishment of the liquid composition.

2. Apparatus as claimed in claim 1, wherein the liquid composition applying means and the rinse liquid applying means are constituted by a single applying means, the liquid composition feeding means include valve means that are closed in response to said stopping or slowing of the strip to stop feed of liquid composition to the applying means, and the rinse liquid feeding means include valve means that are opened in response to said stopping or slowing of the strip to feed rinse liquid to the applying means.

4. Apparatus for the application of a highly reactive liquid composition to a surface of a moving metal strip at an application station, the apparatus comprising means for moving the metal strip through the liquid application station, spray means at the station for applying the liquid composition and a rinse liquid to the surface, a source of the liquid composition to be applied, a pump and pipe means including a valve connecting the spray means and the liquid composition source and operative to feed liquid composition to the spray means, a source of rinse liquid, a pump and pipe means including a valve connecting the spray means to the rinse liquid source and operative to feed rinse liquid to the spray means, means responseive to slowing or stopping of the strip resulting in application of liquid composition to the strip for longer than a predetermined period of time to close the respective valve for stopping feeding of liquid composition to the spray means, and opening of the respective valve to start feeding of rinse liquid to the spray means, liquid composition return means at the station for receiving excess liquid composition and returning it to the source thereof, rinse liquid return means at the station receiving excess rinse liquid and returning it to the source thereof; and pipe means including valve means connecting the source of liquid composition with the source of rinse liquid to permit the supply of rinse liquid to the liquid composition source for replenishment of the liquid composition.