EP0743352A1 - Lubricant composition suitable for application on metal workpieces during hot-forming - Google Patents

Abstract

Lubricating oil compsn. (I) consists of: (a1) 0-80 (wt.%) glass powder; (a2) 0-50 glass frit, where one of (a1) or (a2) is hot 0 wt .%; (b) 10-25 natural or synthetic graphite; (c) 5-20 alkali silicates of formula: Me2OnSiO2 (where Me = Li, K or Na; and n = 1-4); (d) 1-6 water-soluble Na-polymetaphosphate; (e) 0-3 water-insoluble Na-polymetaphosphate; (f) 0.5-4 thickener; and (g) 0-1 borax.

Description

The invention relates to a new lubricant composition for use on workpieces in the hot forming of metals, in particular for use in the hot rolling of blocks and profiles or in the production of hollow blocks in so-called shaping bench systems.
Due to the fact that the metals to be processed have a surface temperature of approx. 800 ° C to 1300 ° C, the focus in practice has so far been on the lubrication of the tools, which are more accessible to classic lubrication at temperatures of maximum 400 ° C are.
Although it is disclosed in the prior art, for example in CH-PS 660 023, that workpieces with temperatures above 600 ° C. can also be treated with the lubricant dispersion mentioned there, the practical comparison shows no formation of an effective adhesive lubricant film at temperatures in the range of 800 ° C to 1300 ° C. The lack of adhesion is essentially caused by the immediate pyrolysis of the organic components, which makes it impossible for the film to adhere. The pyrolysis of the organic components with the associated smoke development is also a very unpleasant side effect for the work environment. The formation of a lubricant film was not found in the practical test, even with the lubricant / mordant compositions of CH-PS 670 106 applied in powder form. In this case, the uniform application of a powder mixture alone makes it considerably more difficult.

Depending on the type of tool, the lubrication of the tools also has various difficulties. The application of the lubricant is often difficult because of the geometry of the tool alone, or low tool temperatures around 100 ° C do not allow proper formation of a lubricant film. Because the tools are constantly treated with large amounts of cooling water, large losses of lubricant are also the rule, which results in contamination of the waste water and a corresponding after-treatment of the waste water. Relatively large amounts of lubricant are therefore required for good lubrication.

It was therefore the task of developing a lubricant composition which does not have the disadvantages mentioned and is therefore suitable for providing workpieces with surface temperatures from 800 ° C. to 1300 ° C. with a uniform, well-adhering and water-insoluble lubricant film.

• a₁) 0-80 Gew.-% eines Glaspulvers
• a₂) 0-50 Gew.-% einer Glasfritte
  wobei der Anteil von zumindest einem der Bestandteile a₁) oder a₂) in der Schmiermittelzusammensetzung nicht 0 Gew.-% ist.
• b) 10-25 Gew.-% natürlicher oder synthetischer Graphit
• c) 5-20 Gew.-% eines oder mehrerer Alkalisilikate der allgemeinen Formel Me₂O n SiO₂, worin Me Lithium, Kalium oder Natrium und n einen Zahlenwert zwischen 1 und 4 bedeutet.
• d) 1-6 Gew.-% eines wasserlöslichen Natriumpolymetaphosphates
• e) 0-3 Gew.-% eines wasserunlöslichen Natriumpolymetaphosphates
• f) 0,5-4 Gew.-% eines Verdickungsmittels
• g) 0-1 Gew.-% Borax

The problem was solved with the new lubricant compositions according to claim 1, which consists of:

• a ₁ ) 0-80% by weight of a glass powder
• a ₂ ) 0-50% by weight of a glass frit
  wherein the proportion of at least one of the components a ₁ ) or a ₂ ) in the lubricant composition is not 0% by weight.
• b) 10-25% by weight of natural or synthetic graphite
• c) 5-20% by weight of one or more alkali silicates of the general formula Me ₂ O n SiO ₂ , in which Me is lithium, potassium or sodium and n is a numerical value between 1 and 4.
• d) 1-6% by weight of a water-soluble sodium polymetaphosphate
• e) 0-3% by weight of a water-insoluble sodium polymetaphosphate
• f) 0.5-4% by weight of a thickener
• g) 0-1% by weight borax

• a₁) 0-20 Gew.-% eines Glaspulvers
• a₂) 30-50 Gew.-% einer Glasfritte
• b) 20-25 Gew.-% natürlicher oder synthetischer Graphit
• c) 7-20 Gew.-% eines oder mehrerer Alkalisilikate der allgemeinen Formel Me₂O n SiO₂, worin Me Lithium, Kalium oder Natrium und n einen Zahlenwert zwischen 1 und 4 bedeutet.
• d) 2-6 Gew.-% eines wasserlöslichen Natriumpolymetaphosphates
• e) 0-1 Gew.-% eines wasserunlöslichen Natriumpolymetaphosphates
• f) 3-4 Gew.-% eines Verdickungsmittels
• g) 0,2-0,7 Gew.-% Borax

For use with workpieces with surface temperatures above 800 ° C, a lubricant composition is preferably used, which consists of:

• a ₁ ) 0-20% by weight of a glass powder
• a ₂ ) 30-50% by weight of a glass frit
• b) 20-25% by weight of natural or synthetic graphite
• c) 7-20% by weight of one or more alkali silicates of the general formula Me ₂ O n SiO ₂ , in which Me is lithium, potassium or sodium and n is a numerical value between 1 and 4.
• d) 2-6% by weight of a water-soluble sodium polymetaphosphate
• e) 0-1% by weight of a water-insoluble sodium polymetaphosphate
• f) 3-4% by weight of a thickener
• g) 0.2-0.7% by weight borax

• a₁) 45-70 Gew.-% eines Glaspulvers
• a₂) 0-20 Gew.-% einer Glasfritte
• b) 20-25 Gew.-% natürlicher oder synthetischer Graphit
• c) 7-20 Gew.-% eines oder mehrerer Alkalisilikate der allgemeinen Formel Me₂O n SiO₂, worin Me Lithium, Kalium oder Natrium und n einen Zahlenwert zwischen 1 und 4 bedeutet,
• d) 1 - 2 Gew.% eines wasserlöslichen Natriumpolymetaphosphates
• e) 0 - 1 Gew.% eines wasserunlöslichen Natriumpolymetaphosphates
• f) 1,5 - 2 Gew.% eines Verdickungsmittels
• g) 0 - 0,25 Gew.% Borax

For use with workpieces with surface temperatures above 1000 ° C, a lubricant composition is preferably used, which consists of:

• a ₁ ) 45-70% by weight of a glass powder
• a ₂ ) 0-20% by weight of a glass frit
• b) 20-25% by weight of natural or synthetic graphite
• c) 7-20% by weight of one or more alkali silicates of the general formula Me ₂ O n SiO ₂ , in which Me is lithium, potassium or sodium and n is a numerical value between 1 and 4,
• d) 1-2% by weight of a water-soluble sodium polymetaphosphate
• e) 0-1% by weight of a water-insoluble sodium polymetaphosphate
• f) 1.5-2% by weight of a thickener
• g) 0-0.25% by weight borax

A normal glass with an average grain diameter d ₅₀ of <100 µm and a softening range of approx. 700 ° C to 900 ° C is suitably used as the glass powder (CAS No. 65997-17-3). The glass powder is largely responsible for the excellent film properties of the lubricant. Due to its relatively high softening point, it is used in increasing quantities when the surface temperature of the workpiece exceeds the 1000 ° C limit.

In contrast, the glass frit is mainly used when the application temperatures are in the lower range from approx. 800 ° C.
Then, due to the lower softening range of approx. 500 ° C to 700 ° C compared to glass powder, the film-forming properties of the glass frit come into full effect. The chemical frit of the glass frit is expediently an alkali-alkaline earth-alumo-boron silicate and is usually used in an average grain size d ₅₀ of <100 μm.

Depending on the application, glass powder and glass frit can be used in any mixing ratio within the specified limits.

Another important component is graphite. Both synthetic graphite and natural graphite can be used.
The average grain size d _{50 of} the graphite used is expediently less than 100 μm. A graphite with high crystallinity, ie with a crystallite length Lc of greater than 100 nm, is advantageously used.

The water-soluble alkali silicates play an essential role as binders. There are water-soluble alkali silicates, individually or in a mixture, of the general formula

Me ₂ O n SiO ₂

used, in which Me is lithium, potassium or sodium and n is a numerical value between 1 and 4. Preferably comes a sodium metasilicate of the general formula mentioned with n = 1-1.5 or a sodium silicate with n = 3.3-3.5 (water glass) or a eutectic mixture of the said sodium silicate with a potassium silicate of the general formula K ₂ O n SiO _2nd in which n denotes 2.4-3 and / or a lithium silicate of the general formula Li ₂ O n SiO ₂ , in which n denotes 2.4-3, for use.
A mixture of the preferred alkali silicates mentioned in a ratio of sodium silicate: potassium silicate: lithium silicate of 12.3%: 67.5%: 20.7% is particularly preferably used.

A water-soluble sodium metapolyphosphate acts as a lubricant component that suppresses foaming. This is expediently understood to mean a compound having the general formula (NaPO ₃ ) _n in which n is less than 450. These compounds are also known under the name "hexametaphosphate" or "Graham's salt".

It is also possible to add a water-insoluble sodium metapolyphosphate as a binder. Particularly suitable for this purpose are the compounds of the general formula (NaPO ₃ ) _n known under the name "Maddrell's salt", in which n is 40 to 70.

The addition of a thickening agent, expediently a polysaccharide or a polysaccharide derivative, is crucial for ensuring a constant viscosity and stability of the lubricant dispersion over a wide temperature range, and for preventing sedimentation of the solids in the dispersion. Biopolysaccharides such as xanthan gum, rhamsan gum or an alkyl cellulose such as hydroxymethyl cellulose are expediently used.

With a corresponding result, alkali metal salts of polyacrylic acid, in particular sodium polyacrylates, can be added as thickeners.

In order to prevent bacterial attack, a commercially available biocide is expediently added to the lubricant composition.

Finally, it is possible to add borax (sodium tetraborate decahydrate) as an adhesion promoter.
The lubricant according to the invention is expediently used in the form of an aqueous dispersion with a solids content of preferably 20% to 50%. It is quite possible to vary the limits up and down. The dispersion can be produced in commercially available dispersing devices which enable high shear forces (cf., for example, EP-PS 218 989).
The ready-to-use dispersion expediently has a viscosity in the range from 1000 MPas to 7000 MPas (Rheomat 15, 20 ° C., cell B, speed 5), but can be varied further by adding thickeners.

The lubricant dispersion can be applied using known systems for spraying disperse systems (cf. e.g. EP-A 453 801).

According to the invention, the lubricant composition disclosed above is used for use on workpieces which have surface temperatures of 800 ° C. to 1300 ° C., in the hot forming of metals, in particular in the hot rolling of blocks and profiles, or in the production of hollow blocks in so-called butt bench systems. The dispersion is applied to the workpiece immediately before the forming. Descaling the workpiece beforehand is an advantage but not essential. After the immediate evaporation of the water, a uniform, water-insoluble lubricating film forms on the workpiece surface within a few seconds, which is not affected by the subsequent forming process.

Examples:

The viscosity data below were measured in a Rheomat 15, 20 ° C., cell B, speed 5).

Formulation 1 (suitable for workpieces with surface temperatures of 850 ° C - 1200 ° C).

• 49.17% by weight glass frit (binding frit K2244 with d ₇₀ <100µm, Schauer Co, A-Vienna)
• 25.00% by weight graphite (synthetic graphite T 75 with d ₅₀ 24µm, LONZA G & T, CH-Sins)
• 15.67% by weight of water glass (water-soluble sodium silicate Na ₂ O n SiO ₂ with n = 3.3 - 3.5)
• 6.00% by weight water-soluble. Sodium polyphosphate (Alcopon, Benckiser-Knapsack, D-Ladenburg)
• 3.33% by weight hydroxymethyl cellulose (Dow Chemical)
• 0.67% by weight borax
• 0.16% by weight biocide
• Dispersion:% water content 20%
• Viscosity: 1000-2000 MPas

Formulation 2 (suitable for workpieces with surface temperatures of 1000 ° C - 1250 ° C)

• 64.85% by weight of glass powder (glass powder 300 with d ₇₀ smaller than 63 µm from Mineralienwerke Kuppenheim)
• 24.94% by weight graphite (synthetic graphite T 75 with d ₅₀ 24µm, LONZA G&T, CH-Sins)
• 6.98% by weight water-soluble. Sodium silicate (Na ₂ O n SiO ₂ with n = 1 - 1.15)
• 1.67% by weight water-soluble. Sodium polyphosphate (Alcopon, Benckiser-Knapsack, D-Ladenburg
• 1.33% by weight hydroxymethyl cellulose (Dow Chemical)
• 0.22% by weight of xanthan gum
• 0.01% by weight of biocide
• Dispersion:% water content 40%
• Viscosity: 1000 - 3000 MPas

Formulation 3 (suitable for workpieces with surface temperatures of 1000 ° C - 1250 ° C)

• 47.78% by weight of glass powder (glass powder 300 with d ₇₀ smaller than 63 µm from Mineralienwerke Kuppenheim)
• 16.53% by weight glass frit (binding frit K2244 with d ₇₀ <100µm, Schauer Co., A-Vienna)
• 24.84% by weight graphite (synthetic graphite T 75 with d ₅₀ 24 µm, LONZA G&T, CH-Sins)
• 6.74% by weight water-soluble. Alkali silicate mixture (sodium silicate: potassium silicate: lithium silicate 12.3: 67.5: 20.7, Me ₂ O n SiO ₂ with n = 2.7)
• 1.32% by weight water-soluble. Sodium polyphosphate (Alcopon, Benckiser-Knapsack, D-Ladenburg)
• 0.92% by weight water insoluble. Sodium polyphosphate (Dentphos M, Benckiser-Knapsack, D-Ladenburg)
• 0.25% by weight borax
• 0.45% by weight xanthan gum
• 1.10% by weight hydroxymethyl cellulose (Dow Chemical)
• 0.07% by weight biocide
• Dispersion:% water content 40%
• Viscosity: 2000 - 5000 MPas

Formulation 4 (suitable for workpieces with surface temperatures of 850 ° C - 1250 ° C)

• 49.53% by weight glass frit (binding frit K2244 with d ₇₀ <100 µm, Schauer Co., A-Vienna)
• 24.76% by weight graphite (synthetic graphite T 75 with d ₅₀ 24µm, LONZA G&T, CH-Sins)
• 6.74% by weight water-soluble. Alkali silicate mixture (sodium silicate: potassium silicate: lithium silicate 12.3: 67.5: 20.7, Me ₂ O n SiO ₂ with n = 2.7)
• 2.64% by weight water-soluble. Sodium polyphosphate (Alcopon, Benckiser-Knapsack, D-Ladenburg
• 1.32% by weight water insoluble. Sodium polyphosphate (Dentphos M, Benckiser-Knapsack, D-Ladenburg)
• 0.66% by weight borax
• 3.30% by weight hydroxymethyl cellulose (Dow Chemical)
• 0.71% by weight sodium polyacrylate (Carbopol, Goodrich Chemical)
• 0.14% by weight biocide
• Dispersion:% water content 20%
• Viscosity: 2000 - 5000 MPas

Comparative formulation 1: (according to CH-PS 660 023, example 1)

• 54% by weight of crystalline graphite
• 11% by weight of Maddrell's salt
• 5% by weight borax
• 10% by weight sodium silicate (water glass SiO ₂ / Na ₂ O = 3.3)
• 18% by weight of polyethylene
• 2% by weight alkyl cellulose
• aqueous dispersion with a solids content of 30% by weight
• Viscosity 1900 MPas

Comparative formulation 2: (according to CH-PS 670 106, example 2)

• 70% by weight sodium tripolyphosphate (Na ₅ P ₃ O ₁₀ )
• 4% by weight graphite
• 26% by weight Na ₂ B ₂ O ₄ 8 H ₂ O

Powder mixture: Comparative test: Test conditions:

The formulations are placed on the 800 ° C to 1050 ° C hot surface of a steel block with the dimensions 29 cm x 6 cm x 3 cm, which is moved at 1.5 m / s, using a nozzle at a distance of 43 cm (pressure 50 bar) 1 to 4, and the comparison formulation 1 sprayed. The comparison formulation 2 is sprayed dry according to CH-PS 670 106. The lubricant film formed is evaluated according to the following classifications.

class 1

No formation of a lubricant film.

2nd grade

Formation of a brittle film of lubricant with only brief (a few seconds) adhesion.

Class 3

Immediate formation of a uniform, glaze-like, well-adhering lubricant film with high mechanical resistance and high water resistance.

Test results:

Formulation Test result (class) 1 3 (from 850 ° C) 2nd 3 (from 1000 ° C) 3rd 3 (from 1000 ° C) 4th 3 (from 850 ° C) Comparison 1 1 Comparison 2 2nd

Claims (12)

Lubricant composition for use on workpieces in the hot forming of metals consisting of a ₁ ) 0-80% by weight of a glass powder a ₂ ) 0-50% by weight of a glass frit
wherein the proportion of at least one of the components a ₁ ) or a ₂ ) in the lubricant composition is not 0% by weight b) 10-25% by weight of natural or synthetic graphite c) 5-20% by weight of one or more alkali silicates of the general formula Me ₂ O n SiO ₂ , in which Me is lithium, potassium or sodium and n is a numerical value between 1 and 4. d) 1-6% by weight of a water-soluble sodium polymetaphosphate e) 0-3% by weight of a water-insoluble sodium polymetaphosphate f) 0.5-4% by weight of a thickener g) 0-1% by weight borax Lubricant composition according to claim 1, characterized in that a glass powder is used which has an average grain diameter d ₅₀ of <100 µm and a softening range of approx. 700 ° C - 900 ° C Lubricant composition according to patent claims 1 or 2, characterized in that a glass frit is used which has an average grain diameter d ₅₀ of <100 µm and a softening range of approximately 500 ° C - 700 ° C. Lubricant composition according to claims 1-3, characterized in that water-soluble alkali silicates, individually or in a mixture, of the general formula Me ₂ O n SiO ₂ are used, in which Me is lithium, potassium or sodium and n is a numerical value between 1 and 4 Lubricant composition according to claims 1-4, characterized in that a Graham's salt of the general formula (NaPO ₃ ) _n with n less than 450 is used as the water-soluble sodium polymetaphosphate. Lubricant composition according to claims 1-5, characterized in that a Maddrell salt of the general formula (NaPO ₃ ) _n with n 40 to 70 is used as the water-insoluble sodium polymetaphosphate. Lubricant composition according to claims 1-6, characterized in that a polysaccharide, a polysaccharide derivative or an alkali salt of a polyacrylate is used as the thickener. Lubricant composition according to claims 1-7 in the form of an aqueous dispersion. Lubricant composition according to claims 1-8 in the form of an aqueous dispersion with a solids content of 20% to 50%. Lubricant composition according to claims 1 - 9 for use on workpieces with surface temperatures from 800 ° C consisting of: a ₁ ) 0-20% by weight of a glass powder a ₂ ) 30-50% by weight of a glass frit b) 20-25% by weight of natural or synthetic graphite c) 7-20% by weight of one or more alkali silicates of the general formula Me ₂ O n SiO ₂ , in which Me is lithium, potassium or sodium and n is a numerical value between 1 and 4. d) 2-6% by weight of a water-soluble sodium polymetaphosphate e) 0-1% by weight of a water-insoluble sodium polymetaphosphate f) 3-4% by weight of a thickener g) 0.2-0.7% by weight borax Lubricant composition according to claims 1 - 9 for use on workpieces with surface temperatures from 1000 ° C consisting of: a ₁ ) 45-70% by weight of a glass powder a ₂ ) 0-20% by weight of a glass frit b) 20-25% by weight of natural or synthetic graphite c) 7-20% by weight of one or more alkali metal silicates of the general formula Me ₂ O n SiO ₂ , in which Me is lithium, potassium or sodium and n is a numerical value between 1 and 4. d) 1-2% by weight of a water-soluble sodium polymetaphosphate e) 0-1% by weight of a water-insoluble sodium polymetaphosphate f) 1.5-2% by weight of a thickener g) 0-0.25 wt% borax Use of the lubricant composition according to claims 1 to 11 for the direct lubrication of workpieces with a surface temperature of approximately 800 ° C to 1300 ° C in the hot forming of metals.