CZ301084B6 - Use of diatomaceous earth-based material as ingredient for increasing wettability in cooling liquids of machine tools and in compositions for treating surfaces prior coating - Google Patents

Abstract

The present invention relates to the use of a material based on diatomaceous earth and containing 40 to 96 percent by weight of SiOi2, 1 to 30 percent by weight of Ali2Oi3 and 1 to 30 percent by weight of Fei2Oi3, whereas the amount of particles with size ranging from 0.00001 do 0.009 mm is 2 to 98 percent by weight and the amount of particles with the size ranging from 0.009 to 1.0 mm is 2 to 98 percent by weight, as an ingredient for increasing wettability in the cooling liquids for machine tools and in compositions for treating surfaces prior coating.

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a diatomaceous earth material, namely a new use as an additive for increasing the wettability of coolants for metalworking and for pre-coating surfactant fluids or compositions, a method for surface pretreatment and coolant using an additive. to increase the wettability of surfaces.

BACKGROUND OF THE INVENTION

The basis of the coolants is water, to which the substances increasing the wax washer and prevent corrosion are added. Mostly emulsion liquids are used, ie oil-in-water emulsions that have a lubricating effect besides cooling and cooling (for grinding 1 to 3% concentration, for turning, drilling, milling about 5%), exceptionally also aqueous solutions (for grinding) alkaline electrolytes (soda, triethanolamine, borax, etc.) or hydrophilic soaps. For the treatment of surfaces prior to painting, especially those affected by contact with oils and silicone-based materials, the most widely used chemical compounds are liquid or gel-forming agents that cause it to decompose or merge or lose adhesion. Also, an increase in the wetting effect is achieved, in particular, by liquid compounds, in particular based on organic solvents and surfactants.

The main disadvantage of current coolants is the need for strong bonds at high temperatures, mainly achieved by the use of chlorine. In general, they cause allergies in contact with the skin. The same can be said for the compounds or mixtures used in surface treatment prior to painting. Their production is costly and pollutes the environment. In the case of materials with inherently low wettability, the surface, after treatment with the compositions previously used, regains its original properties in a short time. Surfaces treated in this way cannot be declared as satisfactory - restored to the original state of contamination or devoid of wetting effects. The prior art also appears to be unsatisfactory due to the burden of working with aggressive agents, which are expensive and difficult to dispose of as waste. Moreover, existing methods are limited by the chemical reactivity of the substrate.

Kieselguhr itself has been known for a long time, as a sorbent of liquids, fats, impurities and odors, as a mechanical cleaning and abrasive agent, as a deworming agent, as a killer larvae and / or parasite germs, as a carrier of other active substances and as a thermal or noise insulation means. For this purpose kieselguhr is used in various forms in terms of its specific chemical composition as well as its physical composition, ie in relation to its consistency, whether it is, for example, a solid block of fired diatomaceous earth or pulp or dust, and in this context as well as the particle sizes present in the respective form.

It is an object of the present invention, in accordance with the present state of the art and its disadvantages or risks, to provide a formulation with a new additive that will effectively improve the wettability of the liquid and thereby improve heat dissipation from the machining site by replacing the existing costly and allergenic agents. before painting In a gentle and unpretentious way, it is a substitute for the existing agents, especially expensive environmental chemicals.

-1GB 301084 B6

SUMMARY OF THE INVENTION

The object is achieved by the use of the known diatomaceous earth material as a novel additive and a method for eliminating the wetting effects according to the invention, wherein the essence consists in using diatomaceous earth material containing 40% to 96% SiO ₂ , 1% to 30% Al ₂ O ₃ and 1% to 30% by weight of Fe ₂ O ₃ , wherein the content of particles of the material from 0.00001 mm to 0.009 mm is between 2% and 98% by weight and from 0.009 mm to 1.0 mm between 2 % to 98% by weight, as an additive for increasing wettability, also in coolants for metalworking and in liquids or surface treatment preparations prior to painting. Preferably, a method of pretreating surfaces is applied by conventional wettable additive compositions wherein the additive is a diatomaceous earth material comprising 40% to 96% SiO ₂ , 1% to 30% Al ₂ O _3, and 1% to 30% % Fe ₂ O ₃ , wherein the content of particles of material of a size of from 0.00001 mm to 0.009 mmn is in the range of 2% to 2%

98% by weight and having a size of from 0.009 mm to 1.0 mm in the range of 2% to 98% by weight.

Preferably, a metalworking cooling fluid is provided with a wettability additive, wherein the additive in the cooling fluid is a diatomaceous earth material containing 40% to 96% SiO ₂ , 1% to 30% Al ₂ O _3, and 1% to 30% % of Fe ₂ O ₃ , wherein the content of the particles of the material from 0.00001 mm to 0.009 mm is between 2% and 98% by weight and from 0.009 mm to 1.0 mm between 2% and 98% by weight.

A unique feature of the diatomaceous earth additive of the present invention is that, when applied to the surface, it reduces the electrostatic stress of the surface of the material, as I believe to lead to charge on the inner periphery of the hollow elementary / base particles of the material of the invention. Electrostatic stress (repulsive effects) is eliminated by the structure of the elemental and base particles of the material of the present invention, since the elemental / base particles of the material of the present invention are porous hollow in shape, so I believe through the coating layer of the elemental / base particles of the material according to the invention into the particles in the hollow volume (this can also be understood as aspirated liquid or mixed gas content), the resulting electric potential on the surface of the base / elementary particles of the material according to the invention is zero and is centered between the inner periphery of the cavities of the base / elementary particles of the material of the invention and the outer periphery of the particles therein. The effect is obtained by eliminating non-creasing effects / increasing the wettability of the surface of materials less easily wettable by better adhesion of the coatings, full contact of the coolant with the cooled part, and thus to better heat removal from the cooling point. The minimum abrasive effect of the additive material according to the invention is given by the polysaccharide layer of the surface of the elemental / base kieselguhr particles.

Even after sweeping / vacuuming / rinsing, the treated surface is devoid of wetting effects for the time required for the subsequent action (eg coating with a new protective layer). Mild anticorrosion protection after use in combination with water should also be mentioned, with the exception of attaching a metal object with a magnet (eg grinding), where corrosion occurs more rapidly in the magnetic field lines. The use of the material according to the invention for the purpose of cooling metalworking processes speaks of its non-flammability, chemical inertness and non-allergenic, harmless to health, effect on human machine operators.

DETAILED DESCRIPTION OF THE INVENTION

Example 1

Extracted and washed diatomite particles containing the composition 91 weight% SiO _2, 6 wt% A1 ₂ O ₃ 1% by weight Fe ₂ O ₃ and 2% by weight of residual elements and compounds, having a particle size of 0.00001 mm to 0.009 mm in amount of 35% by weight, from 0.009 mm to 7.

CZ ÓUIU84 BĎ

1.0 mm in an amount of 65% by weight, mixed with water (44% diatomaceous earth, 56% by volume drinking water). Pure water was used to not distort the result.

A composition of this composition with particles of this size was applied in a thin continuous layer to a 5 metal surface to be coated by spraying with sicone spray oil. After twenty seconds with slight rubbing to increase the effect and subsequent suction, the treated surface was coated with a normal enamel paint that adhered very well.

Example 6.2

Bricks made from extracted diatomaceous earth after firing, crushing and passing through a hammer mill are sieved on a sieve system. Separate fraction containing 71% SiO ₂ , 21% Al ₂ O ₃ , 4% Fe ₂ O ₃ and 4% residual is is compounds with a particle size of 0.00001 mm to 0.009 mm in amounts 5% by weight, from

0.009 mm to 1.0 mm in an amount of 93% by weight, over 1 mm in an amount of 2% by weight, in admixture with water (5% by volume of water for reduced dustiness, 95% by volume of diatomaceous earth based material as described).

Old spills of spilled hydraulic oil on the compact resin composite floor in the production hall were covered with this material. After light ventilation, the condition was left and after three hours the resulting mixture was cleared. Subsequently, no stain marks were visible on the spot and the floor was ready for a new safety label.

Example 3

Extracted and washed diatomite particles containing the composition 82 weight% SiO _2, 12% by weight of A1 ₂ O _3, 2 wt% of Fe ₂ O ₃ and 4 wt% of residual elements and slouče30 nin, with a particle size of 0.00001 mm to 0.009 mm in an amount of 45% by weight, from 0.009 mm to 1.0 mm in an amount of 55% by weight, in admixture with water (95% by volume of water, 5% by volume of diatomaceous earth).

The composition in this composition was wiped off the chrome-plated surface of the pipe intended for coating the adhesive layer for fixing the insulating layer. After rinsing with water and drying, the surface of the tube was ready to be coated with glue that had previously run off the surface.

Example 4

Extracted and washed diatomite particles containing the composition 92 weight% SiO _2, 4% by weight of A1 ₂ O ₃ 1% by weight Fe ₂ O ₃ and 3% by weight of residual elements and compounds, having a particle size of 0.00001 mm to 0.009 mm in amount of 45% by weight, from 0.009 mm to 1.0 mm in an amount of 55% by weight.

The material was incorporated in a 2% by volume proportion into a conventional emulsion used for cooling in machining processes. Due to the increased adhesion, this emulsion dissipates the heat generated by the machining process (grinding) 9% better (measured temperature difference of the emulsion before and after use) than the original emulsion. The accompanying phenomenon was the anticorrosive protection of the machined steel material for the monitored 24 hours against the corrosion occurring after only two hours using the original emulsion. It should be noted here that the grip of the machined parts was solved mechanically, in the case of parts attached magnetically, corrosion occurred faster (within one hour) than when using the original emulsion, exclusively in the field of magnetic flux lines.

-3GB 301084 B6

Industrial applicability

Kieselguhr based material is used in a new area in a mixture with liquids or preparations in a new area where its effects have not been known and have not yet been utilized. In the field of cooling of machined metal surfaces, it is used primarily as a substitute admixture instead of the proportion of allergic components of solutions / emulsions, where, due to high temperatures, especially strong chlorine bonds are used. Existing coolants are also expensive, and expensive to dispose of. In the area of surface treatment prior to painting, their indisputable advantage is chemical inertia and an increased effect over conventional, equally harmless, preparations. Also the economic benefit is considerable, kieselguhr in the amount used is cheap and does not change its properties over time.

Claims (2)

15 PATENT CLAIMS Use of a diatomaceous earth material comprising 40% to 96% by weight S1O2, 1% to 30% by weight Al ₂ O ₃ and 1% to 30% by weight Fe ₂ O ₃ , wherein the content of particulate material 20 having a size of from 0.00001 mm to 0.009 mm is in the range of 2% to 98% by weight, and a size of from 0.009 mm to 1.0 mm in the range of 2% to 98% by weight, and pre-coating preparations. 2. A method of surface treatment prior to coating by conventional means with additives to enhance those smáčivos25, characterized in that the additive is a material based on diatomaceous earth consisting of 40% to 96% by weight SiO _2, 1% to 30% by weight of A1 ₂ O ₃ and 1% 30% by weight of Fe ₂ O ₃ , wherein the content of the particles of the material from 0.00001 mm to 0.009 mm is between 2% and 98% by weight and from 0.009 mm to 1.0 mm between 2% and 98% by weight. 30 3. Cooling the metal working fluid with additives for improving the wettability, characterized in that the additive in the coolant is a material based on diatomaceous earth comprising 40% to 96% by weight SiO _2, 1% to 30% by weight of A1 ₂ O ₃ and 1% up to 30% by weight of Fe ₂ O ₃ , wherein the content of particles of the material from 0.00001 mm to 0.009 mm is between 2% and 98% by weight and from 0.009 mm to 1.0 mm between 2% and 98% by weight .