DE3110045C2 - Phosphoric acid stain - Google Patents

Abstract

The invention relates to a phosphoric acid pickle for immersion or, in particular, spray pickling of scaled and / or rusted surfaces of hot-rolled structural steels, with the addition of pickling inhibitors such as thiocyanates, amino alcohols, and a wetting agent which does not foam in the acidic range. This phosphoric acid is characterized by the following contents: 5-35% by weight orthophosphoric acid 0.2-0.5% by weight hydrofluoric acid 0.2-2% by weight of a salt of thiocyanic acid 0.1-3% by weight of an amino alcohol 0, 1-1.5% by weight of the wetting agent, 0-2.5% by weight of iron (II), remainder water and, if necessary, further additives.

Description

characterized in that they are used as pickling inhibitors

0.2-2% by weight of a salt of thiocyanic acid and

0.1-3% by weight of an amino alcohol

contains.

2. phosphoric acid stain according to claim 1, characterized in that it 20

8-52% by weight orthophosphoric acid,

0.5-1% by weight hydrofluoric acid,

0.5-1% by weight of a salt of thiocyanic acid c

02-13% by weight of an amino alcohol,

0.25-0.40% by weight wetting agent,

0-2.5% by weight of iron (II) ions

contains

3. phosphoric acid stain according to claim 1 or 2, characterized in that it is used as a salt of thiocyanic acid Contains potassium rhodanide.

4. phosphoric acid stain according to claim 1. 2 or 3, characterized in that it is used as amino alcohol Contains triethanolamine.

5. phosphoric acid stain according to one of claims 1 to 4, characterized in that it is used as a wetting agent contains a mixture of a mono- and dialkyl ester of orthophosphoric acid.

The invention relates to an orthophosphoric acid, an accelerator, containing nitrogen and sulfur. Pickling inhibitors and a wetting agent and water that do not foam in the acidic pH range Phosphoric acid pickling for dipping or especially for fuel / .bci / .cn scaled and / or rusted surfaces of hot-rolled structural steels, with the following contents

5-35% by weight orthophosphoric acid,

0.2-5% by weight of hydrofluoric acid

0-2.5 wt .-% iron (lI) ions and

0.1-1.5% by weight of utility.

It is known to use phosphoric acid pickling to remove scale and rust from the surface of hot-rolled steels, which contain pickling inhibitors to reduce attack on the metal and a wetting agent to remove greasy surface contaminants. Al? Pickling inhibitors are an extraordinarily large number of organic substances, including aldehydes, nitrogenous compounds. / .. B. amines, alkanolamines and many other sulfur-containing compounds, nitrogen- and sulfur-containing compounds, z. B. thiocyanates and many others are known. Phosphoric acid pickling is preferred to the usual sulfuric or hydrochloric acid pickling, especially when the steel surface is not only cleaned but also passivated by the pickling. ie it should be protected from subsequent rusting. Hardly soluble iron phosphates, which have a corrosion-inhibiting effect, form on the steel surface. Pickling is often carried out in two stages, namely first in a 15-20% strength by weight phosphoric acid solution and then in a 1-2% strength by weight phosphoric acid solution. After pickling with the more highly concentrated phosphoric acid, rinsing must be carried out in any case, often with cold and warm water. The high consumption of flushing water causes serious problems not only in arid areas but also with the wastewater treatment required for reasons of environmental protection.

If a good passivation effect is to be achieved, a multi-stage pickling process, at least the one mentioned above, is necessary further pickling process with the diluted phosphoric acid pickling is necessary. I got stuck with pickling

h5 phosphoric acid, after a rinse, was followed by a treatment with chromic acid dry storage of the good, which only lasts a few weeks to improve corrosion protection.

The corrosion-inhibiting effect of the coatings removed by pickling with phosphoric acid is not comparable to that of such coatings obtained by treating steel in Zn-. Mn or Zn —Ca-hal-

term Phospaiiersystemen will be reverberated. The phosphating process involves the production of the in water poorly soluble metal phosphate coatings in the foreground and for removing thick layers of scale and rust The steel surface must be cleaned beforehand. In all cases there is one Multi-stage treatment is necessary, usually consisting of the stages of degreasing and cleaning, derusting and descaling, activating, phosphating and post-treatment.

DE-AS 15 46 874 discloses a method for producing anti-corrosion coatings on metal surfaces by degreasing, derusting and cleaning in an acid bath, rinsing with water and drying Filming described in a drying bath, which is characterized in that the metal surfaces with an acidic bath

20 to 35% by weight orthophosphoric acid (100%) and other mineral acids (100%),

2 to 5% by weight pickling accelerator,

Ibis 2% by weight inhibitor,

7 to 12% by weight of wetting agent or mixture of wetting agents,

6 to 8% by weight polar, water-soluble solvent,

38 to 64 wt% water

be treated.

This known phosphoric acid pickle has the disadvantage that it is because of the inhibitors it contains cannot be passed through ion exchangers, which means that they cannot be treated with Ion exchanger «c-can be generated. The inhibitors get stuck in the resin, and with them the regenerated ones If the stain can be used again, it is necessary to add more inhibitors. This represents for the Economics of the phosphoric acid pickling process is a great difficulty, because the additional Adding inhibitors makes the process more expensive.

The invention is based on the object of creating a phosphoric acid pickle which, when carrying out a single immersion or, in particular, spray pickling process, enables improved passivation of the steel surface without the need for pre- or post-treatment. You should continue to. stain according to the invention can be easily regenerated.

The phosphoric acid pickle according to the invention is characterized in that it acts as a pickling inhibitor

0.2 to 2% by weight of a salt of thiocyanic acid,
0.1 to 3% by weight of an amino alcohol

contains.

A preferred invention! , losphorsäurebcize is characterized. that it

8 to 12% by weight orthophosphoric acid,

0.5 to 1% by weight of hydrofluoric acid,

0.5 to 1% by weight of a salt of thiocyanic acid,

02 to 1.5% by weight of an amino alcohol, 0.25 to 0.40% by weight of wetting agent,

0 to 2.5% by weight of iron (II) ions

contains.

The phosphoric acid according to the invention can optionally contain further additives, for example up to 5% by weight formic acid and small amounts of solvent and acid stabilizer.

When using the phosphoric acid stain according to the invention, a very hard iron (II) phosphate layer is formed formed, which adheres particularly well to the steel surface, is free of iron (l I) phosphates and is drier Storage of the structural steel does not detect any rust attack even after one year. Adhere to the layer Wet and dry paints are particularly good.

The salt of thiocyanic acid in the phosphoric acid pickle according to the invention is preferably potassium rhodanide contain,. Triethanolamine is preferably used as the amino alcohol. The wetting agent advantageously contains one non-ionic mixture of 2,4,7, ii-tetramethyl-S-decin ^ J-diol and acetylene alcohols with anti-corrosive Properties. The wetting agent can also be a mixture of a mono- and dialkyl ester of orthophosphoric acid be.

In the process of immersion or, in particular, spray pickling of scaled and / or rusted surfaces The pickling liquid is hot-rolled structural steels using the phosphoric acid pickle according to the invention after a single treatment step of the steel surface without the use of a liquid detergent away from the steel surface, d. H. run off sloping or vertical surfaces of the steel left and, in the case of horizontal surfaces or recesses in the steel, mechanically pushed away from them, z. B. is blown off with compressed air or stripped without further treatment.

Embodiment

A steel beam with the standard dimensions IPB 600 according to DIN 1025 is fed with a feed rate from 0.75 m / min through a spray pickling chamber, in the chamber the steel girder is with all sides a phosphoric acid pickle with the following composition:

14% by weight thermal orthophosphoric acid,
0.6% by weight hydrofluoric acid,
0.75% by weight potassium rhodanide,
0.7.5% by weight triethanolamine,
0.40% by weight wetting agent,

0.50% by weight of iron (II) ions added as sulfate,
83 wt% water

The phosphoric acid pickle has a temperature of 72 ° C and is sprayed onto the ίο scaled, rusted and non-pretreated surface of the carrier at a pressure of 0.9 bar. The application rate is 200 ^{l of phosphoric acid pickle per m 2 of} surface and minutes and the pickling time is 5.5 minutes.

When the carrier emerges from the spray chamber, the carrier is blown off with compressed air in order to remove the to push off any pickling liquid that has remained on the horizontal surfaces of the carrier. 4 minutes after exiting In the spray pickling chamber, the crystallization of the iron (II) phosphate layer is complete and the surface dry.

The carrier can be stored in the hall for up to 2 years without any subsequent treatment without corroding. It is also an immediate wet or dry coating of the support after the crystallization is complete Iron (1I) phosphate layer possible without any other treatment. The coating is particularly characterized by good adherence.

The pickling material can act in water by applying an oil film to the iron (II) phosphate layer in the case of longer storage in the open air or in the case of longer open transports. Of the Oil film can be mixed with a chlorinated hydrocarbon, e.g. B. 1-1-1-trichlorethylene. removed without the Iron ^ IIJ-phosphate layer is impaired. A subsequent wet or dry coating has the same Effect as in the case of application immediately after the crystallization of the iron (II) phosphate layer is complete.

The weldability is improved by good sweat flow.

The treatment of hot-rolled structural steels with the phosphoric acid pickle according to the invention causes less Costs than descaling and rust removal by sandblasting, which was previously common in steel construction. For economic Added to this is the passivation effect that cannot be achieved by sandblasting Treatment with the phosphoric acid according to the invention at / .c. when stored in closed rooms or Halls lasts at least 12 and up to 24 months and under a suspended roof 6 to 9 months, depending on the season. On the other hand, sandblasted structural steel rusts again after a few weeks of storage in the hall. It is also essential that the adhesive strength and the corrosion resistance of the wet or dry coating on surfaces pretreated with the phosphoric acid pickling agent according to the invention, regardless of the time between pretreatment and coating is better or at least as good as on sandblasted surfaces.

Comparative investigation

There were test panels (format 10Ox 150x5 mm) made of scaled and rusted structural steel St 37.2 Subjected (unsettled) to the following different types of pretreatment:

1. Sandblasting SA 3 according to SIS No. 05-59-00 (SIS is a Swedish international standard that defines the purity of blasted steel).

2. Sandblasting SA 3 according to SIS as stated above and storage for 3 hours at medium humidity of 96%.

3. Spray pickling with phosphoric acid pickling according to the exemplary embodiment.

The sample plasters were coated with a red-brown primer paint, layer thickness approx. 25 mm.

1 week after coating, the samples were provided with a cross-cut (cutting distance 1 - 2 mm) and then on the one hand a Keslernichtesi (corrosion stress from condensation water climate according to DIN 50 018 % SO ₂ addition per cycle and corresponds to the DIN standard) and others, an acrosol test (spraying with a mist of 0.05% by weight of saline solution in an aerosol device, spraying for 480 hours in cycles of _1/2 hour each and Spray pause at +20 ⁰ C). After exposure to corrosion, the adhesive strength of the coating (cross-cut value according to DIN 53 151) and the degree of rust according to DIN 53 210 were tested.

The following table shows the values obtained for the adhesive strength and for the corrosion behavior Coating visible after the various pretreatments.

The cross-mean value is determined by adding the values of the individual tests carried out and divided by the number of tests performed.

31 10 045 Corrosion
Kesternich-
tesi echo after
Aerosol
tcsl Transverse
miticl-
wcrt Pretreatment Adhesion strength according to
Kcslcrnich- aerosol-
lcsi read ! I. no
sample
attacked 2.3
2.3
1.3 ! .sandblasted
2. sandblasted and stored
3. spray pickled ■ 4 2
3 3
2 1

The same examination on sample plates prepared in the same way. but which were coated by priming twice with an olive-brown alkyd resin zinc chromate (primer), layer thickness approx. 60 mm resulted in the following values:

Pretreatment

Adhesion strength according to Kesternich · aerosol test test

Corrosion behavior transverse

after medium

Kcsternich aerosol value read test

! .sandblasted 3 2 2 2 2.25 2. sandblasted and stored 4th 3 4th 3 3.5 3. spray pickled I. 2 1 2

From the individual values of the cross-cut values and degrees of rust obtained as well as from those for each sample from all The transverse mean values obtained from the values obtained can be seen that the pretreatment by spray pickling with the phosphoric acid stain according to the invention a better adhesion and corrosion resistance of the coating results than the usual pretreatment by sandblasting.

Claims (1)

Patent claims: 1. Orthophosphoric acid, a pickling accelerator, nitrogen- and sulfur-containing pickling inhibitors as well as a In the acidic pH range, non-foaming wetting agent and phosphoric acid stain containing water for Immersion or especially spray pickling of scaled and / or rusted surfaces of hot-rolled Structural steels, with the following contents 5-35% by weight orthophosphoric acid, 0.2-5% by weight of hydrofluoric acid. ίο 0-2 £% by weight of iron (II) ions. 0.1-1.5% by weight wetting agent,