RU2377121C2 - Oil impregnating antiseptic for wood preservation (versions) - Google Patents

Abstract

FIELD: woodworking industry.

SUBSTANCE: invention is related to composition of oil impregnating antiseptic liquid and may be used for impregnation of wood, in particular for impregnation of wooden sleepers and bars. Oil impregnating antiseptic is described for preservation of wood, including as fungicide product of copper or zinc metal salts interaction with saponated naphthenic acids - naphthenates and/or resonates of copper or zinc metal salts, narrow fraction of lights, which boils within the limits of 230-360°C and fraction of light vacuum gas oil, which boils within the limits of 360-460°C or fraction of heavy vacuum gas oil that boils within the limits of 390-520°C or fraction of darkened vacuum gas oil, which boils within the limits of 360- °C or fraction of black oil with stated ratio of components.

EFFECT: suggested oil impregnating antiseptic for wood preservation (and its versions) provides for good penetrating (impregnating) ability and increased resistance to microbiological affection.

4 cl, 4 tbl, 17 ex

Description

The invention relates to compositions (compositions) of oil impregnating materials and can be used to protect wood from damage by fungi and bacteria, in particular for impregnation of wooden sleepers and beams.

Known coal sleeper oil [GOST 2770-78. “Coal oil for wood impregnation”] (analogue), which contains a narrow oily fraction of thermal origin, which is a mixture of the first anthracene fraction (280-360 ° C) and absorption oil (235-300 ° C) [Coke chemistry chemist's guide, t .3 / Ed. A.K.Shelkova, - M .: Metallurgy, 1966, p.66].

The disadvantages of coal tar oil are the following factors.

1. Coal tar oil impregnating oil contains up to 0.3 wt.% Of substances insoluble in toluene (carbenes and carboids) and up to 1.5 wt.% Water, which negatively affects the process of wood impregnation.

2. In terms of toxicity, coal tar oil impregnation belongs to the second hazard class (highly toxic), which creates an increased danger from the point of view of the sanitary-hygienic and ecological state of the berry impregnation plants.

3. Coal sleeper oil has a high pour point (minus 2 ... minus 5 ° C), which makes it difficult to drain and pump it in winter conditions.

4. A significant disadvantage of coal-bearing cross-impregnating oil is its tendency to sedimentation, which leads to the need for "erosion of sediment" in railway tanks and to losses during storage in tanks.

5. Coal sleeper oil has an unpleasant and very persistent smell.

The closest in technical essence and the achieved result to the claimed invention is “Oil antiseptic for wood impregnation” (RF patent No. 2187429, B27K 3/50, 02/20/2002) (prototype), containing a wide fraction of heavy gas oil of catalytic cracking hard mode, boiling in the range of 140-500 ° C - 90 ÷ 99.8 wt.%, and the remainder of light thermal cracking, boiling in the range of 380-540 ° C - 0.2 ÷ 10 wt.%.

The disadvantages of the known antiseptic fluid include the following:

1. Insufficiently high fungicidal toxicity of this liquid in relation to fungi and bacteria that destroy wood sleepers and beams.

2. The need to use in its production of relatively expensive components - fractions of catalytic cracking.

3. The relatively high price of the indicated antiseptic fluid.

The aim of this invention is to increase the resistance of oil antiseptic fluid to microbiological damage and reduce its cost when using relatively non-deficient cheap oil fractions in comparison with the prototype.

The present invention solves the technical problem of obtaining a new oil-based antiseptic (the products used are from primary oil refining — French fuel oil, secondary vacuum distillation of fuel oil — French light vacuum gas oil, heavy vacuum gas oil, darkened vacuum gas oil, a narrow fraction of light), possessing high protective (biocidal) and impregnating (penetrating) properties with respect to wood at a level not inferior to the known impregnating composition, operational improvements x the properties of the impregnating materials and the expansion of the raw materials of oily antiseptics due to the rational use of oil processing products.

The essence of the invention lies in the fact that the oil impregnating antiseptic for wood preservation, including a fraction of light vacuum gas oil (base), boiling off within 360-460 ° C, and a narrow fraction of light "UFS" (diluent) (E.F. Kaminsky, V .A. Khavkin, Deep oil refining: technological and environmental aspects, M., 1995, pp. 65-70), boiling in the range of 230-360 ° C, characterized in that it contains the interaction product of copper or zinc metal salts as a fungicide with saponified naphthenic acids - naphthenates and / or rubber resins her metals of copper or zinc in the following ratio of components, wt.%:

fraction of light vacuum gas oil 5.0-55.0,

a narrow fraction of light 40.0-94.5,

fungicide 0.5-5.0.

Get an oil impregnating antiseptic for preservation of wood according to option 1. Characteristics of the narrow fraction of light and the chemical composition of the petroleum products are presented in table 1, 2.

According to a second embodiment of the invention, an oil-impregnating antiseptic for wood preservation, comprising a fraction of heavy vacuum gas oil (base), boiling in the range of 390-520 ° C, and a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, characterized in that as a fungicide it contains the product of the interaction of copper or zinc metal salts with saponified naphthenic acids - naphthenates and / or resinates of copper or zinc metal salts in the following ratio of components, wt.%:

heavy vacuum gas oil fraction 5.0-45.0,

a narrow fraction of light 50.0-94.5,

fungicide 0.5-5.0.

According to a third embodiment of the invention, an oil-impregnating antiseptic for wood preservation, comprising a fraction of a darkened vacuum gas oil (base), boiling off within 360 ° C, and a narrow fraction of light (diluent) boiling off within 230-360 ° C, characterized in that as the fungicide contains the product of the interaction of copper or zinc metal salts with saponified naphthenic acids - naphthenates and / or resinates of copper or zinc metal salts in the following ratio of components, wt.%:

fraction of darkened vacuum gas oil 5.0-35.0,

a narrow fraction of light 60.0-94.5,

fungicide 0.5-5.0.

According to a fourth embodiment of the invention, an oil-impregnating antiseptic for preservation of wood, comprising a fuel oil fraction (base), boiling off within 280 ° C, and a narrow light fraction (diluent) boiling off within 230-360 ° C, characterized in that it contains as a fungicide the product of the interaction of copper or zinc metal salts with saponified naphthenic acids - naphthenates and / or resinates of copper or zinc metal salts in the following ratio of components, wt.%:

fuel oil fraction 5.0-40.0,

narrow fraction of light 55.0-94.5,

fungicide 0.5-5.0.

Distinctive features of the proposed technical solution is the inclusion of a fungicide in the impregnating composition, which is a product of the interaction of copper or zinc metal salts with saponified naphthenic acids - naphthenates and / or resinates of copper or zinc metal salts and which allows to increase the microbiological stability of the impregnating liquid. In addition, naphthenates and resinates of copper or zinc increase the depth of impregnation due to the affinity of the structure of the wood matrix to metal salts with saponified naphthenic acids.

The presence in the composition of the proposed composition for preservation of wood fungicide, which is the product of the interaction of metal salts of copper or zinc with saponified naphthenic acids - naphthenates and / or resinates of metal salts of copper or zinc, which are most resistant to microbiological damage, will increase the microbiological stability of the impregnating liquid and, accordingly, the level material security.

The proposed set of essential features of the proposed technical solution allows to increase the microbiological stability of the impregnating liquid and, accordingly, the level of protection of the wood material, as well as to obtain a new cheaper oil-based antiseptic with higher impregnating (penetrating) properties with respect to wood at a level not inferior to the known impregnating composition, improving the operational properties of the impregnating materials and expanding the oil raw materials istyh antiseptics due to the rational use of petroleum products.

In laboratory conditions, an analysis was made of the physicochemical properties of the known oil impregnating composition (prototype) and the proposed oil impregnating antiseptics for wood preservation (see table 3).

The compositions of the proposed oil impregnating antiseptics for wood preservation were obtained by simple mixing of the components: “base + diluent + fungicide”. Fungicide (the product of the interaction of metal salts (copper or zinc) with saponified naphthenic acids - naphthenates and / or resinates of metal salts (copper or zinc), is taken as a finished product manufactured in industry.

Table 4 presents the component composition of oil preservatives for wood preservation.

Example 1. The fraction of light vacuum gas oil (base), boiling in the range of 360-460 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide (naphthenates and / or rubbers of copper or zinc) in the following ratio of components,% by weight: light vacuum gas oil fraction - 5.0, narrow light fraction - 94.5, fungicide - 0.5. It turns out oil impregnating material according to option 1 with the following indicators: kinematic viscosity at 80 ° C 3.24 mm ² / s, density at 20 ° C 909.0 kg / m ³ , flash point in an open crucible 130 ° C, no water content , the content of substances insoluble in toluene is absent, the aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.85 rel.ed, impregnation depth 18 mm. The phenol content is absent.

Example 2. The fraction of light vacuum gas oil (base), boiling in the range of 360-460 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide (naphthenates and / or rubbers of copper or zinc) in the following ratio of components,% by weight: light vacuum gas oil fraction - 55.0, narrow light fraction - 40.0, fungicide - 5.0. It turns out oil impregnating material according to option 1 with the following indicators: kinematic viscosity at 80 ° C 4.90 mm ² / s, density at 20 ° C 912.4 kg / m ³ , flash point in an open crucible 150 ° C, no water content , the content of substances insoluble in toluene is absent, the aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.85 rel.ed, impregnation depth 18 mm. The phenol content is absent.

Example 3. The fraction of heavy vacuum gas oil (base), boiling in the range of 390-520 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide (naphthenates and / or rubber of copper or zinc) in the following ratio of components,% by weight: heavy vacuum gas oil fraction - 5.0, narrow light fraction - 94.5, fungicide - 0.5. It turns out oil impregnating material according to option 2 with the following indicators: kinematic viscosity at 80 ° C 3.26 mm ² / s, density at 20 ° C 915.4 kg / m ³ , flash point in an open crucible 160 ° C, no water content , the content of substances insoluble in toluene is absent, the aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.87 rel.ed, impregnation depth 17 mm. The phenol content is absent.

Example 4. The fraction of heavy vacuum gas oil (base), boiling in the range of 390-520 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide (naphthenates and / or rubber of copper or zinc) in the following ratio of components,% by weight: heavy vacuum gas oil fraction - 45.0, narrow light fraction - 50.0, fungicide - 5.0. Oil obtained impregnating material of Embodiment 2 with the following parameters: Kinematic viscosity at 80 ° C 4.98 mm ² / s, density at 20 ° C 918.1 kg / m ^3, the flash point in an open crucible of 170 ° C, the water content offline , the content of substances insoluble in toluene is absent, the aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.87 rel.ed, impregnation depth 17 mm. The phenol content is absent.

Example 5. The fraction of the darkened vacuum gas oil (base), boiling within 360 ° C, is mixed with a narrow fraction of light (diluent), boiling within 230-360 ° C, and fungicide (naphthenates and / or rubbers of copper or zinc) in the following the ratio of components,% by weight: the fraction of the darkened vacuum gas oil - 5.0, the narrow fraction of light - 94.5, fungicide - 0.5. It turns out oil impregnating material according to option 3 with the following indicators: kinematic viscosity at 80 ° C 3.29 mm ² / s, density at 20 ° C 919.4 kg / m ³ , flash point in an open crucible 180 ° C, no water content , the content of substances insoluble in toluene is absent, the aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.90 rel.ed., impregnation depth 16 mm. The phenol content is absent.

Example 6. The fraction of the darkened vacuum gas oil (base), boiling within 360 ° C, is mixed with a narrow fraction of light (diluent), boiling within 230-360 ° C, and fungicide (naphthenates and / or rubbers of copper or zinc) in the following the ratio of components,% by weight: the fraction of the darkened vacuum gas oil is 35.0, the narrow fraction of light is 60.0, the fungicide is 5.0. It turns out oil impregnating material according to option 3 with the following indicators: kinematic viscosity at 80 ° C 4.71 mm ² / s, density at 20 ° C 945.9 kg / m ³ , flash point in an open crucible 190 ° C, no water content , the content of substances insoluble in toluene is absent, the aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.90 rel.ed., impregnation depth 16 mm. The phenol content is absent.

Example 7. The fraction of fuel oil (fuel oil), boiling within 280 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide (naphthenates and / or rubber of copper or zinc) in the following ratio of components ,% by mass: the fraction of fuel oil - 5.0, a narrow fraction of light - 94.5, fungicide - 0.5. It turns out oil impregnating material according to option 4 with the following indicators: kinematic viscosity at 80 ° C 3.28 mm ² / s, density at 20 ° C 917.3 kg / m ³ , flash point in an open crucible 130 ° C, no water content , the content of substances insoluble in toluene is absent, the aggregative stability and thermal stability of the mixture are high, fungicidal toxicity of 0.85 rel.ed, impregnation depth of 17 mm. The phenol content is absent.

Example 8. The fraction of fuel oil (base), boiling within 280 ° C, is mixed with a narrow fraction of light (diluent), boiling within 230-360 ° C, and fungicide (naphthenates and / or rubber of copper or zinc) in the following ratio of components ,% by weight: fuel oil fraction - 40.0, narrow light fraction - 55.0, fungicide - 5.0. It turns out oil impregnating material according to option 4 with the following indicators: kinematic viscosity at 80 ° C 4.96 mm ² / s, density at 20 ° C 919.9 kg / m ³ , flash point in an open crucible 140 ° C, no water content , the content of substances insoluble in toluene is absent, the aggregative stability and thermal stability of the mixture are high, fungicidal toxicity of 0.85 rel.ed, impregnation depth of 18 mm. The phenol content is absent.

Example 9. The fraction of light vacuum gas oil (base), boiling in the range of 360-460 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide - copper naphthenate in the following ratio,% by mass: light vacuum gas oil fraction - 5.0, narrow light fraction - 94.5, fungicide - 0.5. An oil impregnating material is obtained with the following indicators: kinematic viscosity at 80 ° C 3.23 mm ² / s, density at 20 ° C 909.0 kg / m ³ , flash point in an open crucible 130 ° C, no water content, substance content insoluble in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.84 rel.ed., impregnation depth 18 mm. The phenol content is absent.

Example 10. The fraction of light vacuum gas oil (base), boiling in the range of 360-460 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide - zinc naphthenate in the following ratio,% by mass: light vacuum gas oil fraction - 5.0, narrow light fraction - 94.5, fungicide - 0.5. Impregnating material turns the oil with the following characteristics: Kinematic viscosity at 80 ° C 3.24 mm ² / s, density at 20 ° C 909.0 kg / m ^3, the flash point in an open crucible of 130 ° C, the water content is absent, the content of substances insoluble in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.86 rel.ed., impregnation depth 18 mm. The phenol content is absent.

Example 11. The fraction of light vacuum gas oil (base), boiling in the range of 360-460 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide - rubber of copper in the following ratio,% by mass: light vacuum gas oil fraction - 5.0, narrow light fraction - 94.5, fungicide - 0.5. An oil impregnating material is obtained with the following indicators: kinematic viscosity at 80 ° C 3.24 mm ² / s, density at 20 ° C 910.0 kg / m ³ , flash point in an open crucible 130 ° C, no water content, substance content insoluble in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity of 0.85 rel.ed., impregnation depth of 18 mm The phenol content is absent.

Example 12. The fraction of light vacuum gas oil (base), boiling in the range of 360-460 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide - zinc resinate in the following ratio,% by mass: light vacuum gas oil fraction - 5.0, narrow light fraction - 94.5, fungicide - 0.5. An oil impregnating material is obtained with the following indicators: kinematic viscosity at 80 ° C 3.25 mm ² / s, density at 20 ° C 907.0 kg / m ³ , flash point in an open crucible 130 ° C, no water content, substance content insoluble in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity of 0.85 rel.ed., impregnation depth of 18 mm The phenol content is absent.

Example 13. The fuel oil fraction (base), boiling within 280 ° C, is mixed with a narrow light fraction (diluent), boiling in the range of 230-360 ° C, and fungicide - copper naphthenate in the following ratio of components,% by weight: fuel oil fraction - 40.0, a narrow fraction of light - 55.0, fungicide - 5.0. An oil impregnating material is obtained with the following indicators: kinematic viscosity at 80 ° C 4.96 mm ² / s, density at 20 ° C 920.7 kg / m ³ , flash point in an open crucible 140 ° C, no water content, substance content insoluble in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity of 0.85 rel.ed., impregnation depth of 17 mm The phenol content is absent.

Example 14. The fuel oil fraction (base), boiling within 280 ° C, is mixed with a narrow light fraction (diluent), boiling in the range of 230-360 ° C, and fungicide - copper rubber in the following ratio,% by weight: fuel oil fraction - 40.0, a narrow fraction of light - 55.0, fungicide - 5.0. Impregnating material turns the oil with the following characteristics: Kinematic viscosity at 80 ° C 4.96 mm ² / s, density at 20 ° C 919 kg / m ^3, the flash point in an open crucible of 140 ° C, the water content is absent, the content of substances insoluble in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.87 rel.ed., impregnation depth 17 mm. The phenol content is absent.

Example 15. The fraction of light vacuum gas oil (base), boiling in the range of 360-460 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide - copper rubber and copper naphthenate in the following ratio of components ,% by weight: the fraction of light vacuum gas oil - 5.0, the narrow fraction of light - 94.5, fungicide - 0.5. An oil impregnating material is obtained with the following indicators: kinematic viscosity at 80 ° C 3.26 mm ² / s, density at 20 ° C 911.0 kg / m ³ , flash point in an open crucible 130 ° C, no water content, substance content insoluble in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.87 rel.ed., impregnation depth 17 mm. The phenol content is absent.

Example 16. The fraction of light vacuum gas oil (base), boiling in the range of 360-460 ° C, is mixed with a narrow fraction of light (diluent), boiling in the range of 230-360 ° C, and fungicide - zinc resinate and zinc naphthenate in the following ratio of components ,% by weight: the fraction of light vacuum gas oil - 5.0, the narrow fraction of light - 94.5, fungicide - 0.5. An oil impregnating material is obtained with the following indicators: kinematic viscosity at 80 ° C 3.20 mm ² / s, density at 20 ° C 908.0 kg / m ³ , flash point in an open crucible 130 ° C, no water content, substance content insoluble in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity of 0.89 rel.ed., impregnation depth of 18 mm The phenol content is absent.

Example 17. The fuel oil fraction (base), boiling within 280 ° C, is mixed with a narrow light fraction (diluent), boiling in the range of 230-360 ° C, and fungicide - copper resinate and zinc naphthenate in the following ratio,% by weight : fuel oil fraction - 40.0, narrow light fraction - 55.0, fungicide - 5.0. An oil impregnating material is obtained with the following indicators: kinematic viscosity at 80 ° C 4.96 mm ² / s, density at 20 ° C 919 kg / m ³ , flash point in an open crucible 140 ° C, no water content, insoluble matter in toluene, absent, aggregative stability and thermal stability of the mixture are high, fungicidal toxicity 0.87 rel.ed., impregnation depth 17 mm. The phenol content is absent.

As follows from examples 1-8, the proposed antiseptic liquid in comparison with the prototype has a low viscosity and high penetrating ability, high flash point in an open crucible, which allows to simplify the technology of its application and to provide a higher quality of wood impregnation. In addition, the proposed antiseptic liquid has a higher microbiological stability and a high level of wood protection through the use of fungicide.

Examples 9-17 illustrate the achievement of the same technical result when using copper or zinc naphthenate, or copper or zinc resinate separately, as well as in a mixture, in various combinations thereof.

Thus, based on the above examples, it is obvious that the proposed oil antiseptic liquid in comparison with the prototype has the following:

1. All obtained and studied compositions of oil preservative for wood preservation are fundamentally new and fully comply with the requirements of GOST 20022.5-99 “Protection of wood. Autoclave impregnation with oily protective means ”according to all the main quality indicators (flash point, viscosity, density, volume fraction of water).

2. One of the main requirements for protective impregnating materials for wood impregnation, according to GOST 20022.5-99 “Protection of wood. Autoclave impregnation with oily protective means "is the value of the viscosity of the impregnating material.

The kinematic viscosity of the protective agent should be no more than 5 mm ² / s at 80 ° C. The proposed oil impregnating antiseptic for wood preservation has a kinematic viscosity depending on the ratio of the starting components in the range of 3.24-4.98 mm ² / s, which indicates its good penetrating (impregnating) ability.

3. The proposed oil impregnating antiseptic for wood preservation contains aromatic hydrocarbons with high protective properties. The addition of fungicide - the product of the interaction of metal salts (copper or zinc) with saponified naphthenic acids - naphthenates and / or resinates of metal salts (copper or zinc), increases the protective ability of the oil antiseptic compared to the prototype.

4. The invention can be used for canning wood, in particular for the impregnation of wooden sleepers and beams, in construction and other industries in order to protect them from damage by fungi and bacteria (decay).

5. The proposed oil impregnating antiseptic for wood preservation contains non-deficient oil fractions and related to the 4th hazard class (low hazard). Expands the raw materials of oily antiseptics due to the rational use of oil refined products.

6. The results are achieved only in the aggregate of essential features of the proposed technical solution of the invention.

Table 1 Characterization of the narrow fraction of light (UFS) Quality indicators Value Density at 20 ° С, kg / m ³ ≤870 Fractional composition: boiling temperature 50% vol., ° C ≤280 distilled up to 360 ° С,% vol. ≤90 Kinematic viscosity at 20 ° С, mm ² / s 3.0 Pour point, ° C ≤0 Flash point, ° С ≤130 Coking ability of a 10% residue,% ≤0.3 Accelerated sulfur,% ≤0.67

table 2
The chemical composition of petroleum products FRACTION CHEMICAL COMPOSITION, % Aromatic hydrocarbons Naphthenic hydrocarbons Paraffin hydrocarbons Narrow Light eighteen 25 57 Lightweight vacuum gas oil 19 27 54 Shaded Vacuum Gas Oil 24 twenty 56 Heavy vacuum gas oil 24 twenty 56 Fuel oil 21 twenty 59

Table 3
Physico-chemical properties of the known oil impregnating composition and the proposed oil impregnating materials Indicator Prototype Impregnating oil antiseptic for wood preservation: Option 1 Option 2 Option 3 Option 4 1. Density at 20 ° C, kg / m ³ 998.0-1,000 909.0-912.4 915.4-918.1 919.4-945.9 917.3-919.9 2. Mass fraction of substances insoluble in toluene,% lack of lack of lack of lack of lack of 3. The volume fraction of water,% lack of lack of lack of lack of lack of 4. Sediment in oil heated to 35 ° C, wt.% lack of lack of lack of lack of lack of 5. Kinematic viscosity at 80 ° С, mm ² / s 3.81-4.04 3.24-4.90 3.26-4.98 3.29-4.71 3.28-4.96 6. Flash point in an open crucible, ° С 120-152 130-150 160-170 180-190 130-140 7. Mass fraction
volatile and
water soluble
substances,%:
Phenol
Naphthalene
Volatile hydrocarbons absence absence absence absence absence absence absence absence absence absence absence absence absence absence absence 8. Fungicidal toxicity, rel.ed (in accordance with GOST 16712-95) 0.6 0.85 0.87 0.90 0.85 9. Depth of impregnation, mm 10 eighteen 17 16 17 10. Hazard Class four four four four four

Table 4
The compositions of the proposed oil impregnating antiseptics for wood preservation Name of oil impregnating material The composition of the impregnating material,% wt. base 1 *) base 2 **) base 3 ***) base 4 ****) diluent fungicide Option 1
Option 2
Option 3
Option 4 5.0-55.0
-
-
- -
5.0-45.0
-
- -
-
5.0-35.0
- -
-
-
5.0-40.0 40.0-94.5
50.0-94.5
60.0-94.5
55.0-94.5 0.5-5.0
0.5-5.0
0.5-5.0
0.5-5.0 *) fraction of light vacuum gas oil boiling within 360-460 ° С
**) fraction of heavy vacuum gas oil boiling in the range of 390-520 ° C
***) fraction of a darkened vacuum gas oil boiling within 360 ° С
****) fuel oil fraction boiling within 280 ° С
diluent - a narrow fraction of light, boiling in the range 230-3 60 ° C.
As a narrow light fraction, in particular, diesel fuel of a heavier fractional composition can be used, the physicochemical characteristics of which are indicated in Tables 1, 2.
fungicide - the product of the interaction of salts of heavy metals (copper or zinc) with saponified naphthenic acids - naphthenates and / or resinates of salts of heavy metals (copper or zinc)

Claims (4)

1. Impregnating oil antiseptic for wood preservation, comprising a fraction of light vacuum gas oil boiling in the range of 360-460 ° C, and a narrow fraction of light boiling in the range of 230-360 ° C, characterized in that it contains the product of the interaction of metal salts as a fungicide copper or zinc with saponified naphthenic acids - naphthenates and / or resinates of metal salts of copper or zinc in the following ratio of components, wt.%:
light vacuum gas oil fraction 5.0-55.0 narrow fraction of light 40.0-94.5 specified fungicide 0.5-5.0 2. Impregnating oil antiseptic for wood preservation, including a fraction of heavy vacuum gas oil boiling in the range of 390-520 ° C, and a narrow fraction of light boiling in the range of 230-360 ° C, characterized in that it contains a product of the interaction of metal salts as a fungicide copper or zinc with saponified naphthenic acids - naphthenates and / or resinates of metal salts of copper or zinc in the following ratio of components, wt.%:
heavy vacuum gas oil fraction 5.0-45.0 narrow fraction of light 50.0-94.5 specified fungicide 0.5-5.0 3. An impregnating oil antiseptic for wood preservation, including a fraction of a darkened vacuum gas oil boiling off within 360 ° С, and a narrow light fraction boiling off within 230-360 ° С, characterized in that it contains a product of the interaction of copper metal salts as a fungicide or zinc with saponified naphthenic acids - naphthenates and / or resinates of metal salts of copper or zinc in the following ratio of components, wt.%:
shaded vacuum gas oil fraction 5.0-35.0 narrow fraction of light 60.0-94.5 fungicide 0.5-5.0 4. An impregnating oil antiseptic for wood preservation, including a fuel oil fraction boiling off within 280 ° С, and a narrow light fraction boiling off within 230-360 ° С, characterized in that it contains a product of the interaction of copper or zinc metal salts with saponified naphthenic acids - naphthenates and / or resinates of metal salts of copper or zinc in the following ratio of components, wt.%:
fuel oil fraction 5.0-40.0 narrow fraction of light 55.0-4.5 specified fungicide 0.5-5.0