WO1991013188A1 - Baths and method for chemically polishing stainless steel surfaces - Google Patents

Baths and method for chemically polishing stainless steel surfaces Download PDF

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Publication number
WO1991013188A1
WO1991013188A1 PCT/BE1991/000011 BE9100011W WO9113188A1 WO 1991013188 A1 WO1991013188 A1 WO 1991013188A1 BE 9100011 W BE9100011 W BE 9100011W WO 9113188 A1 WO9113188 A1 WO 9113188A1
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WO
WIPO (PCT)
Prior art keywords
acid
baths
keto
polishing
baths according
Prior art date
Application number
PCT/BE1991/000011
Other languages
French (fr)
Inventor
Marianne Reignier
François Dujardin
Léopold DIMARTINELLY
Original Assignee
Solvay & Cie
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Solvay & Cie filed Critical Solvay & Cie
Priority to EP91903564A priority Critical patent/EP0516652B1/en
Priority to KR1019920702014A priority patent/KR920703875A/en
Priority to SU915053079A priority patent/RU2060302C1/en
Priority to DE69104188T priority patent/DE69104188T2/en
Priority to BR919106053A priority patent/BR9106053A/en
Priority to PL91295790A priority patent/PL166062B1/en
Publication of WO1991013188A1 publication Critical patent/WO1991013188A1/en
Priority to BG96809A priority patent/BG60923B1/en

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Classifications

    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23FNON-MECHANICAL REMOVAL OF METALLIC MATERIAL FROM SURFACE; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL; MULTI-STEP PROCESSES FOR SURFACE TREATMENT OF METALLIC MATERIAL INVOLVING AT LEAST ONE PROCESS PROVIDED FOR IN CLASS C23 AND AT LEAST ONE PROCESS COVERED BY SUBCLASS C21D OR C22F OR CLASS C25
    • C23F3/00Brightening metals by chemical means
    • C23F3/04Heavy metals
    • C23F3/06Heavy metals with acidic solutions

Definitions

  • the present invention relates to the composition of baths for the chemical polishing of stainless steel surfaces.
  • Chemical polishing of metal surfaces is a well-known technique (electrolytic and chemical polishing of metals - WJ Me G. TEGART - Dunod - 1960 - p. 122 et seq.); it consists in treating the metal surfaces to be polished with oxidizing baths.
  • baths are generally used comprising a mixture, in aqueous solution, of hydrochloric, phosphoric and nitric acids (patent US-A-2662814).
  • suitable additives such as surface-active agents, viscosity regulators and brighteners.
  • a composition of a bath for the chemical polishing of stainless steel surfaces comprising, in aqueous solution, a mixture of phosphoric acid, nitric acid and acid. hydrochloric acid, a viscosity regulator chosen from water-soluble polymers, a surfactant and sulfosalicylic acid as a brightening agent.
  • polishing baths have the particularity of attacking the metal at very high speed. A polishing treatment of a stainless steel surface with such baths can generally not exceed a few minutes, at the risk of causing local corrosion.
  • Phosphoric acid sulfosalicylic acid and an abiotic compound, such as an abietamine.
  • the invention aims to provide baths designed to carry out slow and effective chemical polishing of stainless steel surfaces, at working temperatures below 50 ° C.
  • the invention relates to baths for the chemical polishing of stainless steel surfaces, comprising, in aqueous solution, a mixture of hydrochloric acid, nitric acid and phosphoric acid, an optionally substituted hydroxybenzoic acid, a abietic compound and an additive selected from perchloric acid and the water-soluble salts of perchloric acid.
  • hydroxybenzoic acid serves as a brightening agent. It can be unsubstituted such as salicylic acid or substituted such as sulfosali ⁇ cylic acid. Salicylic acid is preferred.
  • the abietic compounds are 0 chemical compounds comprising an abietyl radical of general formula:
  • the abietic compound must be soluble in the aqueous solution.
  • Abietic compounds which can be used in the baths according to the invention are abietamines.
  • Abietamines specially recommended for baths according to the invention are those of general formula: xi
  • R * j _ denotes an abiétyle, hydroabiétyle or déhydro ⁇ abiétyle radical defined above,
  • - X denotes a hydrogen atom or a radical comprising at least one carbonyl group.
  • abietamines which are very suitable in the baths according to the invention, are those in which at least one of the radicals X ⁇ and X2 is a radical of general formula:
  • R2 denotes a linear or cyclic alkyl radical, substituted or unsubstituted, saturated or unsaturated, comprising at least one carbonyl group.
  • R2 denotes a linear or cyclic alkyl radical, substituted or unsubstituted, saturated or unsaturated, comprising at least one carbonyl group.
  • substituted abietamines and the means of obtaining them are described in GB-A-734665.
  • abietamines of this type which can be used in the baths according to the invention, are those in which the alkyl residue R2 is selected from acetonyl, 2-keto butyl, 4-methyl 2-keto pentenyl-3, 4-hydroxy 4 -methyl 2-keto pentyl, 2-keto cyclopentyl, 4-hydroxy 2-keto pentenyl-3, 2-keto cyclohexyl, 2,5-diketo hexyl and 2-phenyl 2-keto ethyl.
  • the respective amounts of additive selected from perchloric acid and its water-soluble salts, on the one hand, and of abietic compound, on the other hand, should be adjusted to make coadsorption possible. on the surface of the steel to be polished, while avoiding exceeding their solubility product.
  • the baths according to the invention contain, per liter, between 0.001 and 0.5 mole of the additive selected from perchloric acid and its water-soluble salts and between 0.005 and 1 g of the abietic compound.
  • the adequate weight quantities of the various constituents of the baths according to the invention depend on the grade of the stainless steel subjected to polishing as well as on the polishing conditions, in particular on the profile of the steel object subjected to polishing. its volume, the volume of the bath, its temperature and the agitation to which it is possibly subjected. They must therefore be determined in each particular case by routine laboratory tests.
  • baths in accordance with the invention suitable for polishing austenitic stainless steels alloyed with chromium and nickel, at temperatures between 25 and 50 ° C. include, per liter of aqueous solution: between 0.5 and 5 moles of hydrochloric acid (preferably 0.5-3 moles),
  • nitric acid preferably
  • 0.05-0.5 mole between 0.005 and 1 mole of phosphoric acid (preferably 0.01-0.5 mole), • between 0.0005 and 0.5 mole of the additive selected from perchloric acid and its water-soluble salts (preferably 0.001-0.2 mole),. between 0.005 and 1 g of abietic compound (preferably
  • the polishing baths according to the invention may possibly contain additives usually present in baths known for the chemical polishing of metals, for example ° surfactants, alcohols and viscosity regulators. They may in particular include products of the DEHYQUART brand (Henkel), which are surfactants selected from alkylpyridinium salts and quaternary ammonium salts, comprising substituted or unsubstituted alkyl, phenyl or benzyl radicals.
  • DEHYQUART brand Hexyl
  • the baths according to the invention are suitable for the chemical polishing of all austenitic stainless steel surfaces. They are specially adapted for polishing austenitic steels containing between 16 and 26% by weight of chromium and between 6 and 22% by weight of nickel, such as steels of grade 18/8 and 18/10, free of molybdenum (AISI standard -304 and 304L).
  • the baths according to the invention have the particularity of carrying out the polishing of such steels at low speed, generally requiring a contact time of between 2 and 20 hours, generally between 5 and 12 hours. They can be used at all temperatures between 20 ° C and the boiling temperature.
  • the baths according to the invention have the additional advantage of performing good quality polishing of welded joints according to the rules of the art.
  • the invention also relates to a method for polishing a stainless steel surface, according to which the surface is placed in contact with a chemical polishing bath according to the invention.
  • the metal surface can be brought into contact with the bath * - *> in any suitable manner, for example by immersion.
  • the contact time of the surface to be polished with the bath must be sufficient to achieve effective polishing of the surface. However, it cannot exceed a critical value beyond which the bath loses its polishing properties.
  • the optimum contact time 0 depends on many parameters such as the grade of the steel, the configuration and the initial roughness of the surface to be polished, the composition of the bath, the working temperature, the possible agitation of the bath in contact with the surface, the ratio between the area of the surface to be polished and the volume of the bath; it must be determined in each particular case by routine laboratory work.
  • the bath is carried out at a temperature between 20 and 50 ° C, preferably between 35 and 45 ° C, at normal atmospheric pressure, and is maintained the surface to be polished in contact with the bath for a time between 5 and 12 hours.
  • the plate was immersed in the polishing bath, kept at a substantially constant temperature and subjected to moderate agitation. At the end of the immersion period 0, the plate was removed from the bath, rinsed with demineralized water and dried. The following parameters were measured:. the average depth of attack of the metal, defined by the relation
  • Nd where S denotes the area of the plate (in cm 2 ), d denotes the specific mass of the metal (in g / cm - * - '), ⁇ P denotes the weight loss (in g) of the plate during immersion in the bath, - * - * ⁇ e denotes the depth of attack ( ⁇ m),
  • R a arithmetic mean roughness
  • Example 1 (according to the invention)
  • a polishing bath was used in accordance with the invention, comprising, per liter:. 2.0 moles of hydrochloric acid,. 0.2 mole of nitric acid,. 0.2 mole of phosphoric acid,. 0.1 mole of perchloric acid,. 0.1 g of sulfosalicylic acid,
  • RODINE 213 which is a mixture of substituted abietamines, isopropanol and surfactants (RODINE being a registered trademark of Amchem Products Inc.).
  • Example 2 (according to the invention)
  • a polishing bath was used in accordance with the invention, comprising, per liter:. 1.5 moles of hydrochloric acid,. 0.1 mole of nitric acid,. 0.2 mole of phosphoric acid,. 0.02 mole of perchloric acid,. 0.1 g of salicylic acid,
  • Example 2 The test of Example 2 was repeated with a polishing bath not in accordance with the invention, containing neither perchloric acid nor the abietic compound.
  • the bath included, per liter: - 1.5 mole of hydrochloric acid,. 0.1 mole of nitric acid,. 0.2 mole of phosphoric acid,. 0.1 g salicylic acid.

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • ing And Chemical Polishing (AREA)
  • Cleaning And De-Greasing Of Metallic Materials By Chemical Methods (AREA)
  • Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
  • Chemical Treatment Of Metals (AREA)

Abstract

Baths for chemically polishing stainless steel surfaces comprising, in an aqueous solution, a mixture of hydrochloric acid, nitric acid and phosphoric acid, an optionally substituted hydroxybenzoic acid, an abietic compound and an additive selected from perchloric acid and the water-soluble salts thereof.

Description

Bains et procédé pour le polissage chimique de surfaces en acier inoxydable Baths and process for chemical polishing of stainless steel surfaces
La présente invention a pour objet la composition de bains pour le polissage chimique de surfaces en acier inoxydable.The present invention relates to the composition of baths for the chemical polishing of stainless steel surfaces.
Le polissage chimique des surfaces métalliques constitue une technique bien connue (Polissage électrolytique et chimique des métaux - W.J. Me G. TEGART - Dunod - 1960 - p. 122 et suivantes); elle consiste à traiter les surfaces métalliques à polir avec des bains oxydants. Pour le polissage chimique des aciers inoxydables austénitiques, on utilise généralement des bains comprenant un mélange, en solution aqueuse, d'acides chlorhydrique, phospho- rique et nitrique (brevet US-A-2662814). Pour améliorer la qualité du polissage, il est habituel d'incorporer à ces bains des additifs adéquats tels que des agents tensio-actifs, des régulateurs de viscosité et des agents de brillantage. Ainsi, dans le brevet US-A-3709824, on décrit une composition d'un bain pour le polissage chimique de surfaces en acier inoxydable, comprenant, en solution aqueuse, un mélange d'acide phosphorique, d'acide nitrique et d'acide chlorhydrique, un régulateur de viscosité choisi parmi les polymères hydrosolubles, un surfactant et de l'acide sulfosalicylique à titre d'agent de brillantage. Ces bains de polissage connus présentent la particularité d'attaquer le métal à très grande vitesse. Un traitement de polissage d'une surface en acier inoxydable avec de tels bains ne peut généralement pas excéder quelques minutes, sous peine d'engendrer des corrosions locales. Cette grande vitesse d'action des bains de polissage connus est un inconvénient, car elle les rend inutilisables pour certaines applications, notamment pour le polissage de la face interne des parois de cuves de grandes dimensions, telles que des chaudières, des autoclaves ou des cristalliseurs. Le temps nécessité pour le remplissage et la vidange de telles cuves étant en général largement supérieur à la durée du traitement de polissage chimique optimum, il devient en effet impossible d'obtenir un poli uniforme de la paroi, certaines zones de celle-ci étant insuffisamment polies, d'autres étant profondément corrodées. La grande vitesse d'action des bains de polissage chimique connus rend par ailleurs le contrôle 5 du polissage difficile.Chemical polishing of metal surfaces is a well-known technique (electrolytic and chemical polishing of metals - WJ Me G. TEGART - Dunod - 1960 - p. 122 et seq.); it consists in treating the metal surfaces to be polished with oxidizing baths. For the chemical polishing of austenitic stainless steels, baths are generally used comprising a mixture, in aqueous solution, of hydrochloric, phosphoric and nitric acids (patent US-A-2662814). To improve the quality of the polishing, it is usual to incorporate in these baths suitable additives such as surface-active agents, viscosity regulators and brighteners. Thus, in patent US-A-3709824, a composition of a bath for the chemical polishing of stainless steel surfaces is described, comprising, in aqueous solution, a mixture of phosphoric acid, nitric acid and acid. hydrochloric acid, a viscosity regulator chosen from water-soluble polymers, a surfactant and sulfosalicylic acid as a brightening agent. These known polishing baths have the particularity of attacking the metal at very high speed. A polishing treatment of a stainless steel surface with such baths can generally not exceed a few minutes, at the risk of causing local corrosion. This high speed of action of known polishing baths is a drawback, because it makes them unusable for certain applications, in particular for polishing the internal face of the walls of large tanks, such as boilers, autoclaves or crystallizers. . The time required for filling and emptying such tanks being generally much greater than the duration of the optimum chemical polishing treatment, it becomes effect impossible to obtain a uniform polish of the wall, certain zones thereof being insufficiently polished, others being deeply corroded. The high speed of action of known chemical polishing baths moreover makes control of the polishing difficult.
Dans le document EP-A-274776 (SOLVAY & Cie), on décrit des bains de polissage chimique à action très lente, qui évitent dès lors les inconvénients précités. Ces bains connus comprennent, en solution aqueuse, un mélange d'acides chlorhydrique, nitrique etIn document EP-A-274776 (SOLVAY & Cie), chemical polishing baths with very slow action are described, which therefore avoid the abovementioned drawbacks. These known baths comprise, in aqueous solution, a mixture of hydrochloric, nitric and
10 phosphorique, de l'acide sulfosalicylique et un composé abié- tique, tel qu'une abiétamine.Phosphoric acid, sulfosalicylic acid and an abiotic compound, such as an abietamine.
Ces bains de polissage connus à action lente sont conçus pour travailler à des températures supérieures à 50° C, généra¬ lement comprises entre 60 et 80°C.These known slow-action polishing baths are designed to work at temperatures above 50 ° C., generally between 60 and 80 ° C.
••-5 L'invention vise à fournir des bains conçus pour réaliser un polissage chimique lent et efficace de surfaces en acier inoxy¬ dable, à des températures de travail inférieures à 50°C.•• -5 The invention aims to provide baths designed to carry out slow and effective chemical polishing of stainless steel surfaces, at working temperatures below 50 ° C.
En conséquence, l'invention concerne des bains pour le polissage chimique de surfaces en acier inoxydable, comprenant, 0 en solution aqueuse, un mélange d'acide chlorhydrique, d'acide nitrique et d'acide phosphorique, un acide hydroxybenzoïque éventuellement substitué, un composé abiétique et un additif sélectionné parmi l'acide perchlorique et les sels hydrosolubles de l'acide perchlorique. 5 Dans les bains selon l'invention l'acide hydroxybenzoïque sert d'agent de brillantage. Il peut être non substitué tel que l'acide salicylique ou substitué tel que l'acide sulfosali¬ cylique. L'acide salicylique est préféré.Consequently, the invention relates to baths for the chemical polishing of stainless steel surfaces, comprising, in aqueous solution, a mixture of hydrochloric acid, nitric acid and phosphoric acid, an optionally substituted hydroxybenzoic acid, a abietic compound and an additive selected from perchloric acid and the water-soluble salts of perchloric acid. In the baths according to the invention, hydroxybenzoic acid serves as a brightening agent. It can be unsubstituted such as salicylic acid or substituted such as sulfosali¬ cylic acid. Salicylic acid is preferred.
Dans le cadre de l'invention, les composés abiétiques sont 0 des composés chimiques comprenant un radical abiétyle de formule générale : In the context of the invention, the abietic compounds are 0 chemical compounds comprising an abietyl radical of general formula:
Figure imgf000005_0001
ou un radical hydroabiétyle ou déhydroabiétyle.
Figure imgf000005_0001
or a hydroabietyl or dehydroabietyl radical.
Conformément à l'invention, le composé abiétique doit être soluble dans la solution aqueuse.According to the invention, the abietic compound must be soluble in the aqueous solution.
Des composés abiétiques utilisables dans les bains selon l'invention sont les abiétamines.Abietic compounds which can be used in the baths according to the invention are abietamines.
Des abiétamines spécialement recommandées pour les bains selon l'invention sont celles de formule générale : xiAbietamines specially recommended for baths according to the invention are those of general formula: xi
RiNf \RiNf \
*2 dans laquelle :* 2 in which:
- R*j_ désigne un radical abiétyle, hydroabiétyle ou déhydro¬ abiétyle défini ci-dessus,- R * j _ denotes an abiétyle, hydroabiétyle or déhydro¬ abiétyle radical defined above,
- X]_ désigne un radical comprenant au moins un groupe carbonyle, et- X ] _ denotes a radical comprising at least one carbonyl group, and
- X désigne un atome d'hydrogène ou un radical comprenant au moins un groupe carbonyle.- X denotes a hydrogen atom or a radical comprising at least one carbonyl group.
Des exemples de telles abiétamines, qui conviennent bien dans les bains selon l'invention, sont celles dans lesquelles l'un au moins des radicaux X^ et X2 est un radical de formule générale :Examples of such abietamines, which are very suitable in the baths according to the invention, are those in which at least one of the radicals X ^ and X2 is a radical of general formula:
-CH2-R2 dans laquelle R2 désigne un reste alkyle linéaire ou cyclique, substitué ou non substitué, saturé ou insaturé, comprenant au moins un groupe carbonyle. Parmi ces composés, on préfère ceux dans lesquels le groupe -CH2- est relié à un groupe carbonyle du reste R2 par un atome de carbone portant au moins un atome d'hydrogène. De telles abiétamines substituées et le moyen de les obtenir sont décrits dans le brevet GB-A-734665. Des exemples d'abiétamines de ce type, utilisables dans les bains selon l'invention, sont celles dans lesquelles le reste alkyle R2 est sélectionné parmi les restes acétonyle, 2-céto butyle, 4-méthyl 2-céto pentényle-3, 4-hydroxy 4-méthyl 2-céto pentyle, 2-céto cyclopentyle, 4-hydroxy 2-céto pentényle-3, 2-céto cyclohexyle, 2,5-dicéto hexyle et 2-phényl 2-céto éthyle.-CH 2 -R 2 in which R2 denotes a linear or cyclic alkyl radical, substituted or unsubstituted, saturated or unsaturated, comprising at least one carbonyl group. Among these compounds, preference is given to those in which the group -CH2- is linked to a carbonyl group of the residue R2 by a carbon atom carrying at least one hydrogen atom. Such substituted abietamines and the means of obtaining them are described in GB-A-734665. Examples of abietamines of this type, which can be used in the baths according to the invention, are those in which the alkyl residue R2 is selected from acetonyl, 2-keto butyl, 4-methyl 2-keto pentenyl-3, 4-hydroxy 4 -methyl 2-keto pentyl, 2-keto cyclopentyl, 4-hydroxy 2-keto pentenyl-3, 2-keto cyclohexyl, 2,5-diketo hexyl and 2-phenyl 2-keto ethyl.
Dans les bains selon l'invention, il convient que les quantités respectives d'additif sélectionné parmi l'acide perchlorique et ses sels hydrosolubles, d'une part, et de composé abiétique, d'autre part, soient réglées pour rendre possible une coadsorption sur la surface de l'acier à polir, tout en évitant de dépasser leur produit de solubilité. En règle générale, il est opportun que les bains selon l'invention contiennent, par litre, entre 0,001 et 0,5 mole de l'additif sélectionné parmi l'acide perchlorique et ses sels hydrosolubles et entre 0,005 et 1 g du composé abiétique.In the baths according to the invention, the respective amounts of additive selected from perchloric acid and its water-soluble salts, on the one hand, and of abietic compound, on the other hand, should be adjusted to make coadsorption possible. on the surface of the steel to be polished, while avoiding exceeding their solubility product. As a general rule, it is expedient that the baths according to the invention contain, per liter, between 0.001 and 0.5 mole of the additive selected from perchloric acid and its water-soluble salts and between 0.005 and 1 g of the abietic compound.
Les quantités pondérales adéquates des divers constituants des bains selon l'invention dépendent de la nuance de l'acier inoxydable soumis au polissage ainsi que des conditions du polis- sage, notamment du profil de l'objet en acier soumis au polis¬ sage, de son volume, du volume du bain, de sa température et de l'agitation à laquelle on le soumet éventuellement. Elles doivent dès lors être déterminées dans chaque cas particulier par des essais de routine au laboratoire. Des exemples de bains conformes à l'invention, adaptés au polissage d'aciers inoxydables austéni- tiques alliés au chrome et au nickel, à des températures comprises entre 25 et 50°C comprennent, par litre de solution aqueuse : . entre 0,5 et 5 moles d'acide chlorhydrique (de préférence 0,5-3 moles),The adequate weight quantities of the various constituents of the baths according to the invention depend on the grade of the stainless steel subjected to polishing as well as on the polishing conditions, in particular on the profile of the steel object subjected to polishing. its volume, the volume of the bath, its temperature and the agitation to which it is possibly subjected. They must therefore be determined in each particular case by routine laboratory tests. Examples of baths in accordance with the invention, suitable for polishing austenitic stainless steels alloyed with chromium and nickel, at temperatures between 25 and 50 ° C. include, per liter of aqueous solution: between 0.5 and 5 moles of hydrochloric acid (preferably 0.5-3 moles),
. entre 0,005 et 1 mole d'acide nitrique (de préférence. between 0.005 and 1 mole of nitric acid (preferably
0,05-0,5 mole), . entre 0,005 et 1 mole d'acide phosphorique (de préférence 0,01-0,5 mole), • entre 0,0005 et 0,5 mole de l'additif sélectionné parmi l'acide perchlorique et ses sels hydrosolubles (de préférence 0,001-0,2 mole), . entre 0,005 et 1 g de composé abiétique (de préférence0.05-0.5 mole),. between 0.005 and 1 mole of phosphoric acid (preferably 0.01-0.5 mole), • between 0.0005 and 0.5 mole of the additive selected from perchloric acid and its water-soluble salts (preferably 0.001-0.2 mole),. between 0.005 and 1 g of abietic compound (preferably
0,01-0,5 g), . entre 0,001 et 5 g d'acide hydroxybenzoïque substitué ou non 5 substitué (de préférence 0,005-0,3 g dans le cas de l'acide non substitué).0.01-0.5 g),. between 0.001 and 5 g of substituted or unsubstituted hydroxybenzoic acid (preferably 0.005-0.3 g in the case of unsubstituted acid).
Les bains de polissage selon l'invention peuvent éventuel¬ lement contenir des additifs habituellement présents dans les bains connus pour le polisage chimique des métaux, par exemple ° des agents tensio-actifs, des alcools et des régulateurs de viscosité. Ils peuvent notamment comprendre des produits de la marque DEHYQUART (Henkel), qui sont des agents tensioactifs sélectionnés parmi les sels d'alkylpyridinium et les sels d'ammonium quaternaires, comprenant des radicaux alkyl, phényl ou benzyl, substitués ou non substitués.The polishing baths according to the invention may possibly contain additives usually present in baths known for the chemical polishing of metals, for example ° surfactants, alcohols and viscosity regulators. They may in particular include products of the DEHYQUART brand (Henkel), which are surfactants selected from alkylpyridinium salts and quaternary ammonium salts, comprising substituted or unsubstituted alkyl, phenyl or benzyl radicals.
Les bains selon l'invention conviennent pour le polissage chimique de toutes surfaces en acier inoxydable austénitique. Ils sont spécialement adaptés au polissage des aciers austénitiques contenant entre 16 et 26 % en poids de chrome et entre 6 et 22 % en poids de nickel, tels que les aciers de nuance 18/8 et 18/10, exempts de molybdène (norme AISI-304 et 304L). Les bains selon l'invention présentent la particularité de réaliser le polissage de tels aciers à vitesse lente, nécessitant généralement un temps de contact compris entre 2 et 20 heures, généralement entre 5 et 12 heures. Ils peuvent être utilisés à toutes températures comprises entre 20°C et la température d'ébullition. Ils présentent toutefois la particularité remarquable de présenter une excellente efficacité à des températures inférieures à 50°C, généralement comprises entre 35 et 45°C, à la pression atmosphé- rique normale, ce qui facilite leur mise en oeuvre et simplifie les mesures à prendre pour assurer la salubrité des ateliers de polissage. Les bains selon l'invention présentent l'avantage supplémentaire de réaliser des polissages de bonne qualité d'assemblages soudés selon les règles de l'art. L'invention concerne aussi un procédé pour le polissage d'une surface en acier inoxydable, selon lequel on met la surface en contact avec un bain de polissage chimique conforme à l'invention.The baths according to the invention are suitable for the chemical polishing of all austenitic stainless steel surfaces. They are specially adapted for polishing austenitic steels containing between 16 and 26% by weight of chromium and between 6 and 22% by weight of nickel, such as steels of grade 18/8 and 18/10, free of molybdenum (AISI standard -304 and 304L). The baths according to the invention have the particularity of carrying out the polishing of such steels at low speed, generally requiring a contact time of between 2 and 20 hours, generally between 5 and 12 hours. They can be used at all temperatures between 20 ° C and the boiling temperature. However, they have the remarkable characteristic of exhibiting excellent efficiency at temperatures below 50 ° C., generally between 35 and 45 ° C., at normal atmospheric pressure, which facilitates their implementation and simplifies the measures to be taken. to ensure the safety of the polishing workshops. The baths according to the invention have the additional advantage of performing good quality polishing of welded joints according to the rules of the art. The invention also relates to a method for polishing a stainless steel surface, according to which the surface is placed in contact with a chemical polishing bath according to the invention.
Dans l'exécution du procédé selon l'invention, la mise en contact de la surface métallique avec le bain peut être réalisée *-*> de toute manière adéquate, par exemple par immersion. Le temps de contact de la surface à polir avec le bain doit être suffisant pour réaliser un polissage efficace de la surface. Il ne peut toutefois pas excéder une valeur critique au-delà de laquelle le bain perd ses propriétés polissantes. Le temps de contact optimum 0 dépend de nombreux paramètres tels que la nuance de l'acier, la configuration et la rugosité initiale de la surface à polir, la composition du bain, la température de travail, l'agitation éventuelle du bain au contact de la surface, le rapport entre l'aire de la surface à polir et le volume du bain; il doit être 5 déterminé dans chaque cas particulier par un travail de routine au laboratoire.In carrying out the method according to the invention, the metal surface can be brought into contact with the bath * - *> in any suitable manner, for example by immersion. The contact time of the surface to be polished with the bath must be sufficient to achieve effective polishing of the surface. However, it cannot exceed a critical value beyond which the bath loses its polishing properties. The optimum contact time 0 depends on many parameters such as the grade of the steel, the configuration and the initial roughness of the surface to be polished, the composition of the bath, the working temperature, the possible agitation of the bath in contact with the surface, the ratio between the area of the surface to be polished and the volume of the bath; it must be determined in each particular case by routine laboratory work.
Dans une forme d'exécution préférée du procédé selon l'invention, le bain est mis en oeuvre à une température comprise entre 20 et 50°C, de préférence entre 35 et 45°C, à la pression 0 atmosphérique normale, et on maintient la surface à polir au contact du bain pendant un temps compris entre 5 et 12 heures.In a preferred embodiment of the method according to the invention, the bath is carried out at a temperature between 20 and 50 ° C, preferably between 35 and 45 ° C, at normal atmospheric pressure, and is maintained the surface to be polished in contact with the bath for a time between 5 and 12 hours.
L'intérêt de l'invention va être mis en évidence à la lecture des exemples exposés ci-après.The advantage of the invention will be highlighted on reading the examples set out below.
Dans les exemples dont la description suit, on a utilisé des 5 plaques en acier inoxydable de nuance 18/10 [acier allié au chrome (18,0 %) et au nickel (10,0 X) et exempt de molybdène].In the examples whose description follows, 5 stainless steel plates of grade 18/10 were used [steel alloyed with chromium (18.0%) and nickel (10.0 X) and free from molybdenum].
Dans chaque exemple, la plaque a été immergée dans le bain de polissage, maintenu à une température sensiblement constante et soumis à une agitation modérée. A l'issue de la période 0 d'immersion, la plaque a été retirée du bain, rincée à l'eau déminéralisée et séchée. On a mesuré les paramètres suivants : . la profondeur moyenne d'attaque du métal, définie par la relationIn each example, the plate was immersed in the polishing bath, kept at a substantially constant temperature and subjected to moderate agitation. At the end of the immersion period 0, the plate was removed from the bath, rinsed with demineralized water and dried. The following parameters were measured:. the average depth of attack of the metal, defined by the relation
104 10 4
Δe = .ΔPΔe = .ΔP
S.d où S désigne l'aire de la plaque (en cm2), d désigne la masse spécifique du métal (en g/cm-*-'), ΔP désigne la perte en poids (en g) de la plaque pendant l'immersion dans le bain, -*-* Δe désigne la profondeur d'attaque (μm),Nd where S denotes the area of the plate (in cm 2 ), d denotes the specific mass of the metal (in g / cm - * - '), ΔP denotes the weight loss (in g) of the plate during immersion in the bath, - * - * Δe denotes the depth of attack (μm),
. la rugosité moyenne arithmétique Ra, qui est la déviation moyenne par rapport à la surface moyenne de la plaque (Encyclopedia of Materials Science and Engineering, Michael B. Bever, Vol. 6, 1986, Pergamon Press, pages 4806 à 4808 (page 4806) :. arithmetic mean roughness R a , which is the average deviation from the mean surface of the plate (Encyclopedia of Materials Science and Engineering, Michael B. Bever, Vol. 6, 1986, Pergamon Press, pages 4806 to 4808 (page 4806 ):
Figure imgf000009_0001
les mesures étant effectuées avec un palpeur muni d'une pointe de 5 μm de diamètre et correspondant à une valeur de cut-off égale à 0,25 mm. . la brillance de la surface. Exemple 1 (conforme à l'invention)
Figure imgf000009_0001
the measurements being carried out with a probe fitted with a tip of 5 μm in diameter and corresponding to a cut-off value equal to 0.25 mm. . the shine of the surface. Example 1 (according to the invention)
On a mis en oeuvre un bain de polissage conforme à l'invention, comprenant, par litre : . 2,0 moles d'acide chlorhydrique, . 0,2 mole d'acide nitrique, . 0,2 mole d'acide phosphorique, . 0,1 mole d'acide perchlorique, . 0,1 g d'acide sulfosalicylique,A polishing bath was used in accordance with the invention, comprising, per liter:. 2.0 moles of hydrochloric acid,. 0.2 mole of nitric acid,. 0.2 mole of phosphoric acid,. 0.1 mole of perchloric acid,. 0.1 g of sulfosalicylic acid,
. 0,1 g du produit RODINE 213, qui est un mélange d'abiétamines substituées, d'isopropanol et d'agents tensioactifs (RODINE étant une marque déposée de Amchem Products Inc.).. 0.1 g of the product RODINE 213, which is a mixture of substituted abietamines, isopropanol and surfactants (RODINE being a registered trademark of Amchem Products Inc.).
Les conditions opératoires furent les suivantes :The operating conditions were as follows:
. volume du bain 1940 cm3,. bath volume 1940 cm 3 ,
. aire de la surface soumise au polissage 87 cm2, . température 35°C, . durée de l'immersion 11 heures.. area of the surface subjected to polishing 87 cm 2 ,. temperature 35 ° C,. duration of the immersion 11 hours.
On a relevé les résultats suivants : . profondeur moyenne d'attaque : 27 μm ; . rugosité moyenne arithmétique :The following results were noted:. average depth of attack: 27 μm; . arithmetic mean roughness:
. avant le polissage : 0,3 ± 0,1 μm, . après le polissage : 0,11 ± 0,02 μm. L'aspect de la surface est satiné. Exemple 2 (conforme à l'invention). before polishing: 0.3 ± 0.1 μm,. after polishing: 0.11 ± 0.02 μm. The appearance of the surface is satin. Example 2 (according to the invention)
On a mis en oeuvre un bain de polissage conforme à l'invention, comprenant, par litre : . 1,5 mole d'acide chlorhydrique, . 0,1 mole d'acide nitrique, . 0,2 mole d'acide phosphorique, . 0,02 mole d'acide perchlorique, . 0,1 g d'acide salicylique,A polishing bath was used in accordance with the invention, comprising, per liter:. 1.5 moles of hydrochloric acid,. 0.1 mole of nitric acid,. 0.2 mole of phosphoric acid,. 0.02 mole of perchloric acid,. 0.1 g of salicylic acid,
. 0,15 g du produit RODINE 213 défini à l'exemple 1. Les conditions opératoires furent les suivantes : . volume du bain : 970 cm3,. 0.15 g of the product RODINE 213 defined in Example 1. The operating conditions were as follows:. bath volume: 970 cm 3 ,
. aire de la surface soumise au polissage 43 cm2, . température 35°C, . durée de l'immersion 12 heures.. area of the surface subjected to polishing 43 cm 2 ,. temperature 35 ° C,. duration of the immersion 12 hours.
On a relevé les résultats suivants : . profondeur moyenne d'attaque : 25 μm ; . rugosité moyenne arithmétiqueThe following results were noted:. average attack depth: 25 μm; . arithmetic mean roughness
. avant le polissage : 0,3 μm, . après le polissage : 0,11 μm. . Brillance [sous un angle de 30 degrés (selon la norme ASTM E430)] : 28 %.. before polishing: 0.3 μm,. after polishing: 0.11 μm. . Brightness [at an angle of 30 degrees (according to ASTM E430)]: 28%.
Exemple 3 (essai de référence)Example 3 (reference test)
On a répété l'essai de l'exemple 2 avec un bain de polissage non conforme à l'invention, ne contenant ni l'acide perchlorique, ni le composé abiétique. Le bain comprenait, par litre : - 1,5 mole d'acide chlorhydrique, . 0,1 mole d'acide nitrique, . 0,2 mole d'acide phosphorique, . 0,1 g d'acide salicylique.The test of Example 2 was repeated with a polishing bath not in accordance with the invention, containing neither perchloric acid nor the abietic compound. The bath included, per liter: - 1.5 mole of hydrochloric acid,. 0.1 mole of nitric acid,. 0.2 mole of phosphoric acid,. 0.1 g salicylic acid.
Les conditions opératoires furent les suivantes : • volume du bain : 970 cm3,The operating conditions were as follows: • volume of the bath: 970 cm 3 ,
. aire de la surface soumise au polissage : 43 cm2, température : 35°C, durée de l'immersion : 9 heures, 30 minutes.. surface area subject to polishing: 43 cm 2 , temperature: 35 ° C, duration of immersion: 9 hours, 30 minutes.
On a relevé les résultats suivants : profondeur moyenne d'attaque : 25 μm ; rugosité moyenne arithmétiqueThe following results were noted: average depth of attack: 25 μm; arithmetic mean roughness
. avant le polissage : 0,23 μm, . après le polissage : 0,27 μm.. before polishing: 0.23 μm,. after polishing: 0.27 μm.
On observe une augmentation de la rugosité There is an increase in roughness

Claims

R E V E N D I C A T I O N SR E V E N D I C A T I O N S
1 - Bains pour le polissage chimique de surfaces en acier inoxydable, comprenant, en solution aqueuse, un mélange d'acide chlorhydrique, d'acide nitrique et d'acide phosphorique, un acide hydroxybenzoïque éventuellement substitué et un composé abiétique, caractérisés en ce qu'ils comprennent un additif sélectionné parmi l'acide perchlorique et les sels hydrosolubles de l'acide perchlorique.1 - Baths for the chemical polishing of stainless steel surfaces, comprising, in aqueous solution, a mixture of hydrochloric acid, nitric acid and phosphoric acid, an optionally substituted hydroxybenzoic acid and an abietic compound, characterized in that 'They include an additive selected from perchloric acid and the water-soluble salts of perchloric acid.
2 - Bains selon la revendication 1, caractérisés en ce que l'acide hydroxybenzoïque est de l'acide salicylique.2 - Baths according to claim 1, characterized in that the hydroxybenzoic acid is salicylic acid.
3 - Bains selon la revendication 1, caractérisés en ce que l'acide hydroxybenzoïque substitué est de l'acide sulfosali- cylique.3 - Baths according to claim 1, characterized in that the substituted hydroxybenzoic acid is sulfosalicylic acid.
4 - Bains selon l'une quelconque des revendications 1 à 3, caractérisés en ce que le composé abiétique est une abiétamine substituée de formule générale :4 - Baths according to any one of claims 1 to 3, characterized in that the abietic compound is a substituted abietamine of general formula:
//
R-lNR- l N
\\
*2 dans laquelle :* 2 in which:
- R désigne un radical abiétyle, hydroabiétyle ou déhydro- abiétyle,R denotes an abietyl, hydroabietyl or dehydroabietyl radical,
- X*L désigne un radical comprenant au moins un groupe carbonyle, et- X * L denotes a radical comprising at least one carbonyl group, and
- X2 désigne un atome d'hydrogène ou un radical comprenant au moins un groupe carbonyle.- X2 denotes a hydrogen atom or a radical comprising at least one carbonyl group.
5 - Bains selon la revendication 4, caractérisés en ce que l'un au moins des radicaux Xi et X2 est un radical de formule générale :5 - Baths according to claim 4, characterized in that at least one of the radicals Xi and X2 is a radical of general formula:
- CH2-R2 où 2 désigne un reste alkyle linéaire ou cyclique, substitué ou non substitué, saturé ou insaturé, comprenant au moins un groupe carbonyle.- CH 2 -R 2 where 2 denotes a linear or cyclic alkyl radical, substituted or unsubstituted, saturated or unsaturated, comprising at least one group carbonyl.
6 - Bains selon la revendication 5, caractérisés en ce que le reste alkyle R2 est sélectionné parmi les restes acétonyle, 2-céto butyle, 4-méthyl 2-céto pentényle-3, 4-hydroxy 4-méthyl 2-céto pentyle, 2-céto cyclopentyle, 4-hydroxy 2-céto pentényle-3, 2-céto cyclohexyle, 2,5-dicéto hexyle et 2-phényl 2-céto éthyle.6 - Baths according to claim 5, characterized in that the alkyl residue R2 is selected from acetonyl, 2-keto butyl, 4-methyl 2-keto pentenyl-3, 4-hydroxy 4-methyl 2-keto pentyl, 2 -keto cyclopentyl, 4-hydroxy 2-keto pentenyl-3, 2-keto cyclohexyl, 2,5-diketo hexyl and 2-phenyl 2-keto ethyl.
7 - Bains selon l'une quelconque des revendications 1 à 6, caractérisés en ce qu'ils comprennent, par litre de la solution aqueuse, entre 0,001 et 0,5 mole de l'additif sélectionné parmi l'acide perchlorique et ses sels hydrosolubles et entre 0,005 et 1 g du composé abiétique.7 - Baths according to any one of claims 1 to 6, characterized in that they comprise, per liter of the aqueous solution, between 0.001 and 0.5 mole of the additive selected from perchloric acid and its water-soluble salts and between 0.005 and 1 g of the abietic compound.
8 - Bains selon l'une quelconque des revendications 1 à 7, caractérisés en ce qu'ils comprennent, par litre de solution aqueuse,8 - Baths according to any one of claims 1 to 7, characterized in that they comprise, per liter of aqueous solution,
. entre 0,5 et 5 moles d'acide chlorhydrique,. between 0.5 and 5 moles of hydrochloric acid,
. entre 0,005 et 1 mole d'acide nitrique,. between 0.005 and 1 mole of nitric acid,
. entre 0,005 et 1 mole d'acide phosphorique,. between 0.005 and 1 mole of phosphoric acid,
. entre 0,0005 et 0,5 mole de l'additif sélectionné parmi l'acide perchlorique et ses sels hydrosolubles,. between 0.0005 and 0.5 mole of the additive selected from perchloric acid and its water-soluble salts,
. entre 0,005 et 1 g de composé abiétique,. between 0.005 and 1 g of abietic compound,
. entre 0,001 et 5 g d'acide hydroxybenzoïque substitué ou non substitué.. between 0.001 and 5 g of substituted or unsubstituted hydroxybenzoic acid.
9 - Bains selon l'une quelconque des revendications 1 à 8, pour le polissage chimique des surfaces en aciers austénitiques.9 - Baths according to any one of claims 1 to 8, for the chemical polishing of austenitic steel surfaces.
10 - Bains selon la revendication 9, pour le polissage chimique de surfaces en aciers austénitiques, alliés au chrome et au nickel et exempts de molybdène10 - Baths according to claim 9, for the chemical polishing of austenitic steel surfaces, alloyed with chromium and nickel and free of molybdenum
11 - Procédé pour le polissage d'une surface en acier inoxy- dable, selon lequel on met la surface en contact avec un bain de polissage chimique, caractérisé en ce qu'on met en oeuvre un bain conforme à l'une quelconque des revendications 1 à 10, que l'on maintient à une température comprise entre 20 et 50°C. 11 - Method for polishing a stainless steel surface, according to which the surface is brought into contact with a chemical polishing bath, characterized in that a bath is used in accordance with any one of the claims 1 to 10, which is maintained at a temperature between 20 and 50 ° C.
PCT/BE1991/000011 1990-02-23 1991-02-18 Baths and method for chemically polishing stainless steel surfaces WO1991013188A1 (en)

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SU915053079A RU2060302C1 (en) 1990-02-23 1991-02-18 Solution and method of chemical polishing of stainless steel surface
DE69104188T DE69104188T2 (en) 1990-02-23 1991-02-18 BATHS AND METHOD FOR CHEMICAL POLISHING STAINLESS STEEL SURFACES.
BR919106053A BR9106053A (en) 1990-02-23 1991-02-18 BATHS AND PROCESS FOR THE CHEMICAL POLISHING OF STAINLESS STEEL SURFACES
PL91295790A PL166062B1 (en) 1990-02-23 1991-02-18 Chemical polishing bath for stainless steel surfaces
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