WO1993006153A1 - Modified lignocellulose material, method of obtaining it and composition for obtaining composite material - Google Patents

Abstract

The proposed material is characterized by the presence of the following groups connected to an initial lignocellulose material by means of -O- links at the points of location of hydroxyl groups: (I) and (II), where: R, R1 are a lower alkyl (1-9 C); or R1 is halogen or phenyl substituted lower alkyl (1-9 C), lower alkenyl (1-9 C), phenyl substituted lower alkenyl (1-5 C), the content of which equals 21.0-58.4 per cent by weight. The method consists in acylation of a lignocellulose material with a mixture of acylanhydrate and carbonic acid or of two acylanhydrates in the medium of an organic solvent at high temperature. The composition comprises a binder consisting of a modified lignocellulose material, and a filler of a vegetable or mineral nature at the ratio of 10-90:90-10.

Description

 ΜΟ DIGITAL LEAGUE Ε 0 Ε ЮЛ ЮЛ Η Η Η Η,,,, Ο Ο ΜΑΤΕΡ Ο Ο Ο У У У ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ ΕΗ.

The area of technology. 5 Ηasτοyaschee izοbρeτenie οτnοsiτsya κ προizvοdsτvu vysοκοmοle κulyaρnyχ προduκτοv of maτeρialοv ρasτiτelnοgο προisχοzhdeniya and τοchnee κasaeτsya mοdiφitsiροvannοgο lignοtsellyulοznοgο maτeρi ala, sποsοba egο ποlucheniya and sοsτava for ποlucheniya κοmποzitsi οnnοgο maτeρiala. 10

The prior art. At present, there is a temporary loss of reserves of oil, coal, gas and the expansion of the production of raw materials. There is a search for new sources of raw materials. Ηaibοlee πeρsπeκτivny 15 πρedsτavlyaeτsya isποlzοvanie ezhegοdnο vοzοbnοvlyaemοgο ρasτi τelnοgο syρya, τaκοgο κaκ dρevesina χvοynyχ and lisτvennyχ πο ροd, χlοπκοvy linτ, οτχοdy selsκοgο χοzyaysτva (τροsτniκ sοlοma, ποdsοlnechnaya husks, κuκuρuznaya κοcheρyzhκa, bagasse, flax κοsτρa). 20 Οsnοvnymi κοmποnenτami lignοtsellyulοznοgο maτeρiala is yuτsya biοποlimeρy: lignin, and tsellyulοza gemitsellyulοza, maκροmο leκuly κοτορyχ οbρazuyuτ slοzhnuyu nadmοleκulyaρnuyu sτρuκτuρu χaρaκτeρizuyuτsya bοlshim κοlichesτvοm vοdοροdnyχ ties, οb ρazοvanii κοτορyχ uchasτvuyuτ gidροκsilnye gρuππy lignοtsellyu 5 lοznοgο maτeρiala. The investigation of this natural lignocellulosic material does not possess the properties characteristic for the synthesizing of linear linearities: the compatibility with the property and the property.

For lignocellulosic materials, various methods are known for 0 chemical moduli based on the substitution of hydrogen and gaseous substances.

When modifying lignocellulosic material, the modifier can be upgraded like everything, including separate components, 5 included in its components.

The method of chemical wood is known through partial disintegration into lignoplastic Ш5, Α, 4.026.847, including the impregnation of wood π

_ο temperature 9e With a foreign product containing a metal, calcium oxide, phosphate maldehyde, ammonia substances, which are in contact with wood. When heating an impermeable material ο

5 to tempera tures 160 With the formation of compo nents between native lignin and species, there is a process of formation.

The obtained lignoplastic polymer is processed by pressure at a pressure of 100 kgf / cm and a temperature of 160 ° C for 30 minutes in a critical material. Cellulose and hemicellulose 10, which constitute the largest part of wood (up to 70 wt.%), Are not subject to modification and are non-immune to non-pulmonary

The result of this is that the result is a partial temperature failure and 15 With eκο lοgichesκοy τοchκi zρeniya sτροiτelny maτeρial of dannοgο leagues nοπlasτichnοgο ποlimeρa πρedsτavlyaeτ ρealnuyu οπasnοsτ for chelοveκa τaκ κaκ in προtsesse eκsπluaτaπii προisχοdiτ φenοlοv isolation and φορmaldegida, yavlyayuschiχsya τοκsichnymi veschesτvami. 20 The written method is not quite economical, since the large amount of meat is only slightly larger, but there is a slight increase in weight, which makes 30% of the weight.

The method of modifying lignocellulosic material is known - 25 wood in the form of a bicycle ("Investigation in the area of Chemistry of solid wood". . "The use of modifiers of wood heating in the manufacture of stoves in order to increase their capacity and 0 and ΌΟ ΌΟ ΌΟ))). The method is concluded in the event of an erosion in the vicinity of an urban supplier. The degree of agglomeration of the plants in the spring makes up about 19 wt. Due to the low level of power supply, it is not working at high temperatures ((ΤΤ == 222200--224400 CC)) The resulting material has a narrow area of application, compounded by its low thermal stability, and the ease of use of algesia. The described method cannot be used because of its low efficiency of 5 due to the inability to process the entire mass of lignocellulose.

DISCLOSURE OF INVENTION.

The main task of the invention was to create a modifiable lignocellulosic material possessing a high yield

10 lasτichnοsτyu, ρasτvορimοsτyu in ρazlichnyχ ρasτvορiτelyaχ and κ and geziey maτeρialam ρazlichnοy πρiροdy, ρazρabοτaτ sποsοb π radiation mοdiφiπiροvannοgο lignοtsellyulοznοgο maτeρiala πuτ ποdbορa sοοτveτsτvuyushiχ uslοvy mοdiφiκatsii. You will ensure that you receive the specified material properties and capabilities.

15 variations in the required products, simple technology, and also to develop a system for receiving the risk of high metabolic rate.

The task is solved by the fact that the proposed modifica

20 lignocellulosic material, which is characterized by the presence of natural lignocellulosic material -0- connection to the location of a large load unit:

I

- —Κ and —C—

II II ο ο

25 where: Κ - lower alkyl with the number of carbon atoms οτ 1 to (1-7 C);

Κ - lower alkyl (1–9 C), halogen mixed lower alk (1–9 C), phenyl mixed lower alkyl (1–5 C), lower alkene nyl (1–9 C), phenyl mixed lower alkenyl (1– 5 C), the average consumption of 30 is 21.0-58.4 wt.

Pρedlagaemy maτeρial yavlyaeτsya προduκτοm mοdiφiκaiii Sun sοsτavnyχ κοmποnenτοv lignοiellyulοznοgο maτeρiala, οόlada vysοκοy τeρmοπlasτichnοsτyu (τemπeρaτuρa ρazmyagcheniya naχοdiτ with a πρedelaχ 70-200 C) in ρasτvορimοsτyu ρazlichnyχ ορganichesκ

35 disinfectants (chemist, methylethyl ketone, acid, methyl chloride, and also mixtures with benzene or metal sulphate 98, and with a little melancholy disease). svοysτva οbuslοvleny presence maτeρiale atsilnyχ gρuππ κaρ bοnοvyχ κislοτ with vysοκοy mοleκulyaρnοy massοy, vvedennyχ in κο lichesτve 21-58,4 wt.% and acyl προizvοdnyχ lignin κοτορy vyποlnyayuτ ροl vnuτρenniχ vysοκοmοleκulyaρnyχ πlasτiφiκaτοροv. When acyl group contains less than 21 wt. % of the material, according to the invention, is characterized by a low degree of acyl digestion and practically close to the properties of original lignocellulose. The external part of the content of the apyll group is divided by the maximum possible quantity of the substituted hydrogel group.

An increase in the quantity of united acyl groups and a corresponding decrease in hydroxy groups in the lignocellulosic material in the process of the industrial process With an increase in the quantity of acyl groups, there is a decrease in the intensity of absorption in the area of absorption of hydrochloric groups (3500-3200 cm), the intensity is

--4 bonds С-Η (2920-2880 cm) and bonds С = 0 (1740 cm) increase. It is desirable that in the modified lignocellulosic material the content of the group - C - was 5.3-31.3 wt. * ;, and

II 0 I gρνππы - С — Κ - 10.0-38.8 wt. II 0 Such a system ensures the possibility of regulating the temperature of the softening and solubility in the given tasks.

Reducing τemπeρaτuρy ρazmyagcheniya mοdiφiiiροvannοgο lignο- πellyulοznοgο maτeρiala ποzvοlyaeτ sniziτ τemπeρaτuρu οbρabοτ- κi izgοτοvlennyχ on egο οsnοve sοsτavοv for ποlucheniya κοmπο- ziπiοnnyχ maτeρialοv, chτο πρivedeτ κ sοκρasheniyu eneρgeτiches- κiχ zaτρaτ and uπροsτiτ τeχnοlοgichesκy προπess iχ ποlucheniya.

The increased lignocellulosic material plays a greater role when used, it has been found to be irreversible. in commercially available materials and in isolation of complex pulp ethers. Task ρeshaeτsya τaκzhe τem, chτο πρedlagaeτsya sποsοb ποluch Nia mοdiφitsiροvannοgο lignοtsellyulοznοgο maτeρiala in κοτορο sοglasnο izοbρeτeniyu, lignοtsellyulοzny maτeρial mοdiφitsiρu πuτem egο οbρabοτκi atsiliρuyuschey mixture sοdeρzhaschey atsilangi

5 type of formula: (ΚСΟ) -Ο, where: Κ is the lowest alkyl with the number of atoms

<£ carbon from 1 to 7, and the component selected from the group, the simplest from the acid of the formula: Κ СΟΟΗ and acylhydride

I I

(Κ СΟ), 0, where: Κ is lower alkyl (1-9 С), phenyl substituted nalkyl (1-5 С), lower alkenyl (1-9 С), phenyl substituted lower 10 alkenyl (1-5 C) πρi mοlnοm sοοτnοshenii nazvannοgο au langidρida and uκazannοgο κοmποnenτa 1: 0.5-3 sοοτveτsτvennο, sρede τρiφτορuκsusnοy κislοτy πρi ποvyshennοy τemπeρaτuρ οbesπechivaya πρi eτοm πρisοedinenie κ isχοdnοmu lignοiellyulο nοmu maτeρialu -0- bond πο mesτu ποlοzheniya gidροκ-

I

15 strong groups are the following groups: - С— and— С - Κ, with the next

II II 0 0 allocation of the target product.

The proposed method is characterized by a simple technology that requires a primary processing of lignocellulosic material

.20 ala by chemical reagents. We carry out the diversification in the stage using different kinds of raw materials, which are available in a commercially available aiylating mixture. The method allows you to solve the problem of the utilization of lignin, due to the use of all modified lignocellulosic material. The method may be dried

25 is closed on technology and on existing equipment. The method allows you to receive a modifiable lignocellulosic material with the required properties and ensures the possibility of their regulation in the given tasks.

With the proposed method, lignonell may be used

30 useful material thrown out of the group: timber of solid or wood, healthy lint, agricultural land, tearing, poor

Π π π π есс э э э э э π ^ ^ ^ ^ ^ ^ ^ Ο ^ Ο Ο

35 Acids (Κ CΟΟΗ), taken in small proportions 1: 0.5-. ' they enter into the reaction of conversion of anhydride with the formation of a mixture of a new anhydride, which is also involved in the reaction of the ether π and hydroxyl groups of lignocellulosic material (LC). II

(ΚСΟ ^ Ο + Κ СΟΟΗ ΚСΟ-Ο-СΟΚ ÷ ΚСΟΟΗ

I __ I /

LCΜ- (0Η) „- ηΚСΟ-0-СΟΚ ~ *" ЛЦΜ- (Ο-СΟΚ) (Ο-СΟΚ) _ + (η-ν) Κ α П -у _7

* USC 5 According to the described scheme, the process proceeds by the participation of two acylhydrides (SCC), 0 and (SCC) 0 in the aroused mixture. Large ratio 1: 0.5-3 is divided into quantities of lignocellulosic material named aryl group. Further increase in quantity of acid

I

10 or atsilangidρida (Κ SΟΚΟ οτρiπaτelnο vliyaeτ on svοysτva τρiφτορuκsusnοy κislοτy, πρimenyaemοy in dannοm προtsesse in κa chesτve ρasτvορiτelya and κaτalizaτορa. Τρiφτορuκsusnaya κislο τa ΤΦUΚ) οτlichaeτsya sπetsiφichesκim deysτviem on nadmοleκulyaρ hydrochloric sτρuκτuρu tsellyulοzy and yavlyaeτsya bοlee myagκim gidροlizuyushi

15 agent than mineral acids, such as a gray, badly phosphoric acid. The combination of such an acylating mixture with Κ Κ Κ Κ and ousting of the modi fi cation of the temperature and the increased temperature of the mixture reduces the rate of deep modulation of the lignite

20 small-scale biomolecule macromolecules.

It is advisable, for the implementation of the process of modifying the optimal mode, to use the acylating mixture, taken in quantities of 2-24 wt. . per 1 part by weight lignocellulosic material

Use in the amount of 3-30 parts by weight. per 1 part by weight ligno 25 material, and the process should be carried out at a temperature of 30-12

Isolation of the target product from the proprietary mixture can be made from various ways.

By adding a precipitating agent, the modified ligno cellulosic material settles down, and then the acetone is separated

30 poured mixture by filtration.

The product obtained may be precipitated in film by pressing through a silk filter on a stainless steel filter or filled with stainless steel tape. Growing up 5 acidic films are washed away by demineralized water

_ ο thermothermal e0-70 With 30-50 wt.% aqueous solutions of alcohol

(methyl, methyl). A basic modified ligno cellulosic material can be obtained in a different format (powder, film), which is subject to the conditions for its isolation by the following application.

Task ρeshaeτsya τaκzhe τem, chτο πρedlagaeτsya sοsτav 5 ποziπiοnnοgο maτeρiala, κοτορy, sοglasnο izοbρeτeniyu, sοd zhiτ in κachesτve svyazuyuschegο πρedlagaemy mοdiφitsiροvanny leagues tsellyulοzny maτeρial and naποlniτel ρasτiτelnοgο or mineρa nοgο προisχοzhdeniya πρi iχ massοvοm sοοτnοshenii 10-90: 90-10.

The proposed system makes it possible to produce new eco-friendly 10 harmless materials that do not distinguish between the production and operation of the environment.

Most competitive materials have a variety of different applications.

3 pieces (700-2200 kg / m) and high physical and mechanical factors that provide these materials with a wide range of applications

15 The content of the binder 10 wt. It is, therefore, a minimal matter, as well as a com- petitive material that has the potential to be damaged by its proprietary properties. The increase in the content of the binder is up to 90 wt. % LOSING DEPENDENCE ON LOCAL ACCOMMODATION AND REMAINING PROPERTIES AND REMAINING INCOME

20 optional materials.

Βysοκaya adgεziya maτερiala, πρedlagaemοgο κachesτve in a connected yushegο maτeρiala κ naποlniτelyam -mineρalnοgο and ρasτiτelnο προisχοzhdeniya, οbesηechivaeτ κοmποzitsiοnnοmu maτερialχ nπzκ ποκazaτεli vοdοποglοshεniya, nabuχaniya, vysοκy πρedel πρη

25 when bent.

It is advisable that, if the unit is a part of the unit, it can be removed from the group: solid wood or industrial waste, 10% The increase in this case κ

30 amounts of binder above 50 wt. % does not significantly. an increase in physical and mechanical properties of materials, but at the same time, an increase in their density occurs.

Other components are available for use in the manufacture of wooden handicrafts.

35 plates. Composition, sodarzhashi up to 90 wt. >; a connecting and filling area. It is proposed to use wood-based masses and plastics. It is preferable that, as a result of the composition, the miner of the raw material extracted from the group should be kept: marble, burnt clay, unloading, should be removed.

An increase in the number of binders, πρ and the use of mineral

5 fillers leads to an increase in physical and mechanical footprints of composites of materials and to a decrease in its density

Compared with a mineral filler, it may be possible to use prefabricated and efficient cookers, sanitary equipment and other products. To improve the quality

10 of the available commercially available materials may include supplements: consumables, complementary parts (large, non-compliant,

The commercially available material is prepared from the named system of the household by hot pressing or by washing

15 Weapons.

The best variant of the invention.

A small flask equipped with a stirrer and a dummy mixer will interfere with the 10 g lignocellulosic material (LC), as a result of this, is used

20 grams of 110 grams of acetic acid and 380 grams of antifoam mixture, consisting of 20.4 grams (0.2 mol) of acetic anhydride

17.6 g (0.2 mol) of butyric acid. A process with a temperature of 70 ° C and a constant stirring time is required to ensure an acyclic group is kept in good condition.

25 BETWEEN THEIR METHOD After the end of the campaign, the isolation of the improved diffracted lignocellulose from the reactive mixture was added, adding a slight increase in dilution of 250 After this sediment is removed, it is washed off and washed with acid and dried at a temperature of 60 ° C with a reduced pressure.

The product range of the target product is 16 g (in fact

60 wt.ϊ.). The resulting modified lignocellulosic mate rial contains 14.5 wt. % СΗ, СΟ- group active), 24.0 wt.; 5 With Η_СΟ-group (butyrylnyh), is it sold in the store for 68? '. softening temperature (Τρ) ρ equal

1bϋ ^& C. The received modified LC is offered for use when the system is in stock, and it is free to consume a large amount of waste.

Composition and composition of this material from the 5th material are subject to the following procedure.

The obtained modified LC in the amount of 9 g (15 wt.% Is grown in 100 ml of acetone. The resulting suspension is mixed with 51 g (85 wt.) Of dry matter)

10 removal of the solvent, it is placed in the pressure and the temperature is controlled by 30–50 ° C, increasing the temperature of the beginning of the softening of the binder. The mixture is stirred for 0.5 minutes. by 1 mm of the length, and then the product was cooled, cooled to a temperature of 100-120 C. For use

The 15 sample models share the physical and mechanical parameters of famous materials.

The advantageous material of this product is the following χ operating systems:

3 density, kg / m 820

20 percent bending, ΜPa 35.0 water supply, 14.2 swelling, 4.0

According to the described method, a commercially available material is prepared which contains 18 g (30 wt.) Of the indicated binder and

25 The size of the filler is a complete husk. It has the following physical and mechanical characteristics:

3 Density, kg / m 980, section for bending, ΜPa 32.5 incl.%, 6.8%

30 swelling,% 2.0

When using a mineral filler, the preparation and processing of the material is subject to the following process.

The modified LC indicated above composition in the amount of 35 to 18 g (30 wt.%) Is mixed with 41.4 g (69 wt.) Of food, the volume of oil obtained and the reduction of oil, and 0.6 g (1). tela. The resulting composition is forwarding to hot

_ ο nii 0, ο min. by 1 mm of the depth of π and the temperature of 30–50 C, π higher than the temperature of the beginning of softening of the binder. The result is a new product that is cooled to temperatures of 100-120 C.

5 The final product has the following physical characteristics: tightness, kg / m 1900, bending limit, ΜPa 47.4%, 0.2

10 swelling,% 0

(output in water and temperature 25 С)

Below in Table 1, there are other methods of modifying the LC, according to the invention, with the indication of the system of the arousing mixture, the condition of the unit is inactive,

Table 1

I g

| (The composition of the acylating mixture per 1 g LZH |

1 ** 1 1 1

5 [ππ | Cycylhydride [Acid (Cycylhydride) | Consistent

10

fifteen

thirty

Offer table ι g τ

10

fifteen

20

0

10

fifteen

20

25

thirty

35 Ηizhe in τablitse 2 πρivedeny πρimeρy ποlucheniya κοmποzitsiο nοgο maτeρiala of sοsτava, sοglasnο izοbρeτeniyu with uκazani naποlniτelya and mοdiφitsiροvannοgο LΜTS, τemπερaτuρy πρessοvani φiziκο-meχanichesκiχ ποκazaτeley ποluchennοgο κοmποzitsiοnnο maτeρiala. ν θ 93/06153 -14- ΡСΤ / Κυ92 / 00028

Gablia 2 ι g

10

fifteen

0

5

0

5 _Ι_ _Ι_ _! _

* - Exports of products and supplies, less than

0 5mm; Table ε 2

10

fifteen

20

ΔΟ

thirty

35 Intended use.

Pρedlagaemy mοdiφidiροvanny lignοπellyulοzny maτeρi mοzheτ byτ isποlzοvan in κachesτve isχοdnοgο syρya for ποluch Nia πlasτmass, vρemennyχ anτiκορροziynyχ ποκρyτy, slοzhn 5 eφiροv tsellyulοzy and τaκ same in κachesτve svyazuyuschegο πρi πρig τοvlenii κοmποzitsiοnnyχ maτeρialοv. The method, according to the invention, will find application in the field of chemical processing of industrial products. Utilized materials using the named material will find applications

10 πρi izgοτοvlenii products sτροiτelnοy προmyshlennοsτ (maτeρi ala for ποlοv, οblitsοvκi sτen and ποτοlκοv, ποgοnazhnye products πaneli) dρevesnyχ πρess-mass for deκορaτivnyχ maτeρialοv de τaley mebelnοy προmyshlennοsτi and products, products sanτeχni chesκοgο naznachεniya.

fifteen

Claims

1. A customized lignocellulosic material, which is characterized by the presence of integrated lignocellulosic material -0- connection to the location of the hydraulics

5 gruppπ following gruppπ:

/ - C - Κ and - C —Κ

// //

0 0 where: Κ - lower alkyl with the number of carbon atoms οτ 1 to 7

I

Κ - lower alkyl (1-9 C), galogen substituted lower alk

10 (1–9 C), phenyl substituted lower alkyl (1–5 C), lower alkynyl (1–9 C), phenyl substituted lower alkenyl (1–5 C), the composition constitutes 21.0–58, 4 wt.%.

2. The product is π 1, which is characterized by the fact that it contains group С C с constitutes 5.3-31.3 wt.%, And group II

15 0

- With - - 10.0-38.8 wt.%. II 0

3. The process is on stage 1, which is characterized by the fact that the temperature of its softening is in the range of 70-200 C.

20 4. The theory of πο π. 1. It is compatible with the fact that it is commercially available in the business sector from 5 to 98.

5. Sποsοb ποluchεniya mοdiφitsiροvannοgο lignοtsellyulοznο maτeρiala πο claim .1, χaρaκτeρizuyushiysya τem, chτο lignοtsellyulοzn maτeρial mοdiφitsiρuyuτ πuτem egο οbρabοτκi atsiliρuyushey mixture 25 sοdeρzhashεy atsilangidρid φορmuly (ΚSΟ) __ 0 gdε:

Κ is the lowest alkyl with the number of carbons from 1 to 7, and the part selected from the group consisting of carbonic acid

I <I φ СΟΟΗ formula and acylhydride of ο Сида formula (Κ СΟ) _ 0, where: Κ-lower alkyl (1-9 С), halogen substituted lower alkyl (1-9 С

30 phenyl mixed lower alkenyl (1-5 C), lower alkynyl (1-9 C phenyl mixed lower alkenyl (1-5 C) with a large proportion of named ailangide and an indi vidual 0.5: Increase the current rate by securing and connecting to the source.

35 Nomν lignocellulosic material 0-communication

I the provisions of hydrostatic groups of the following groups: - С - Κ and— • С— Κ,

II II π next selection Ο ϋ target product.

6. The process is carried out in accordance with claim 5, which is characterized by the use of an acetylating mixture, taken in amounts of 2-24 parts by weight. n wt.h. lignocellulosic material.

5 7. The method is based on item 5, which is chemically synthesized by the use of triacetic acid taken in the amount of 3-30 wt. . n wt.h. lignocellulosic material.

8. The method is π.5, which is characterized by the fact that the lignocell is a useful material that is 30 and 120 ° C.

10 9. Sοsτav for ποlucheniya κοmποzitsiοnnοgο maτeρiala, χaρa τeρizuyuschiysya τem, chτο sοdeρzhiτ in κachesτve svyazuyuschegο mοdiφ tsiροvanny lignοtsellyulοzny maτeρial πο π.1 and naποlniτe ρasτiτelnοgο or mineρalnοgο προisχοzhdeniya πρi iχ massοv sοοτnοshenii 10-90: 90-10.

15 10. Sοsτav πο π.9, χaρaκτeρizuyuschiysya τem, chτο οn sοdeρzh naποlniτel ρasτiτelnοgο προisχοzhdeniya vybρanny of gρuππ dρevesina χvοynyχ or lisτvennyχ ποροd, οτχοdy selsκοχ zyaysτvennyχ κulτuρ, vzyaτyχ κοlichesτve in 10-50 wt.%.

11. Having been compiled on π 9, it is subject to a change in terms of content.

20 mineral filler, selected from the group, granite, burnt clay, sand, glass, glass.