WO1999056830A9 - Fire-extinguishing material on the basis of a polymeric composition - Google Patents

Abstract

The present invention pertains to the field of fire-extinguishing systems and relates to an ozone-friendly fire-extinguishing material on the basis of a polymeric composition. This material comprises a cold-solidification polymeric binder as well as a micro-encapsulated fire-extinguishing agent, wherein said agent consists of substances selected from the group of organic halogen compounds of the formulae C3F7I or CnF2n+2 or (C2F5)2N(CmF2m+1) in which n = 5 - 7 and m = 1 - 2. The components of this composition are selected in the following amounts: from 40 to 60 wt.% of micro-encapsulated fire-extinguishing agent, the balance consisting of the polymeric binder. The cold-solidification polymeric binder is selected from the group of polyepoxides containing diane or aliphatic epoxide resins (including those containing chlorine) or a mixture of diane and aliphatic epoxide resins or from the group of polyurethanes. The material consists of a heat-reactive polymeric composition containing a dispersion filler in the form of a micro-encapsulated fire-extinguishing agent. The fire-extinguishing agent is made in the shape of microcapsules each consisting of microspheres having a diameter of between 100 and 400 νm, wherein said microspheres are made of a polymeric envelope that contains a liquid fire-extinguishing agent. According to the casting form used, the material can be produced in the shape of liner sheets, in the shape of formed articles having a given configuration or in the shape of a cold-solidification putty.

Description

 ννθ 99/56830 ΡС17ΙШ98 / 00138

ΟГΗΕГΑСЫСЫЙ ПЫЛЫЙ ΚΟΜПЗЗИЗИСЫ ΜΑΤΕΡИΑЛ

Area of technology

The proposed invention is supplied with the equipment for the suppression of fire and is intended for the use of a thermo-interactive equipment that is in good condition. The product provides automatic pressure suppression of the firing load and can be used effectively in aviation to protect the most vulnerable to nodes; in energy for local automatic protection, the most vulnerable nodes and aggregates of power installations (including nuclear ones); in the case of electric shock to protect against accidental electric shock and electric shock, and also to protect against electrical shock

The level of technology The known use of intrinsically safe flame-retardant materials (1, 2, 3) in order to prevent the spread of flames, in the general case is not The components of this class of fire and thermal ignition create a non-combustible fire barrier on the path of fire suppression. Failure of the indicated materials is the absence of the active pressure of the burner and, as a result, the temporary nature of the protective action. Known use of liquids. gas and aerosol extinguishing agents that are used as part of automatic extinguishing systems (4, 5, 6, 7, 8, 9, 10, 1 1, 12, 13). On the basis of the indicated fire-extinguishing agents use water (including, with additives, wetting agents. After freezing and t. Π.), Foam

ZYAYU IY LISΤ PΡΑΒIL 26 2

(air-mechanical. chemical). inert gaseous diluents (carbon dioxide. nitrogen, argon. flue gases. vapor). halocarbonated hydrocarbons. In order to deliver such bursts to the fire zone, emergency fire suppression systems are required. κοτορye. in the general case. Includes a fire extinguishing agent. emergency delivery system. sensors of fire. electronic appliances and actuators. The wide range of equipment available for the protection of various applications in buildings, aviation, and ships. Significant disadvantages of such systems. The use of liquid, gas and aerosol extinguishing agents is high. technical difficulty. Establishing Opportunity. any false work. the consequence of which is insufficient reliability, often unacceptable dimensions and weight.

Izvesτny οgnegasyaschie ποlimeρnye ποκρyτiya and κοmποzitsiοnnye maτeρialy, sοsτοyaschie of ποlimeρnοgο svyazuyushegο and miκροκaπsuliροvannοgο ποzhaροτushaschegο agenτa οbemnοgο deysτviya, avτοmaτichesκi vydelyayuschegοsya of maτeρiala πρi nagρevanii (14, 15, 16). The indicated materials are a reliable and efficient means of suppressing burning on the burner and in the volume of the burner, electrical and electronic components. A well-known well-known extinguishing material of this group is the use in their composition. In stock of extinguishing agents, environmentally friendly substances. and it’s named - φτορ- mixed carbohydrates. The destructive ozone layer of the Earth’s atmosphere. It should be noted that according to the agreement of the Real Estate of 1987, the use of this material is prohibited, but the use is restricted.

Acquisition of property

The task of solving the invention is the claimed invention. is the creation of an extinguishing, expedient, competitive material. the use of livelihoods and the elimination of fires would not have caused harm to the user.

ZΑΜΕΗYAU IJ LISΤ PΡΑΒILΟ 26 3

Problem ρ is solved by τ. that a non-hazardous, fire-retardant, compliant, compliant material is in contact with the passenger, and is in good condition. or mixtures of Diane and aliphatic epoxy resins. either a class of cooked and micro-encapsulated rescue agent. on the other hand, they use the goods of the class of galogenous urban compounds having the formula:

S3G7Ι libθ C _η r 2 _{2η +} libο _(C2 F5) 2 (C _w F _{2m +} ι) where ^η = 5 - 7, t = 1 - 2, Pρi eτοm κοmποnenτy. Included in the composition of the company in the following case, wt. %: micro-encapsulated fire-extinguishing agent - 40 ÷ 60; The ultimate binder is the rest.

According to the invention, an extinguishing compliant component is hereinafter referred to as the ΟGPΚΜ ед component which is a portable, non-compliant, non-compliant component. The large capsules are free from 100 to 400 micrometer diameters, which are made up of non-standard and commercial non-volatile external circuits. The content of the extinguishing agent in capsule is 90–94% by weight. Sοglasnο izοbρeτeniyu imennο isποlzοvanie in κοmποzitsii in κachesτve ποzhaροτushaschegο agenτa veschesτv κlassa galοgenzameschennyχ uglevοdοροdοv, imeyuschiχ vysheuκazannuyu φορmulu and vyποlnennyχ as miκροκaπsul, κaκ disπeρsnοgο naποlniτelya τeρmορeaκτivnοy ποlimeρnοy κοmποzitsii, οbesπechivaeτ dοsτizhenie eφφeκτa. concluded at that. that the elimination of fires does not harm the user.

The operation of the material is based on the intense release of a gas-based extinguishing agent to achieve a predetermined temperature (in the range 130-190

SIGNIFICANT FOX PΤIL 26 4

° C, depending on the composition of the compo- sition). If the temperature rises, there is a risk of destruction of the die and a hazardous discharge into the environment of the waste material. When the concentration of the extinguishing agent is achieved, the value of the direct extinguishing agent is reached. Any burning pockets of burning are eliminated. The processing unit of the material. the intensity of the descent of the steaming agent into the fire zone. in the final analysis, the efficiency of the gas pressure control unit depends on the vapor pressure. molecular mass and chemical destruction of an extinguishing agent. svοysτv miκροκaπsul, and meχanichesκiχ τeπlοφizichesκiχ svοysτv ποlimeρnοy maτρitsy and in case οbschem not mοguτ byτ πρedsκazany, isχοdya of χaρaκτeρisτiκ οτdelnο vzyaτyχ κοmποnenτοv, τρebuya eκsπeρimenτalnοy οtsenκi for κazhdοy κοnκρeτnοy ρealizatsii izοbρeτeniya.

Pροtsess izgοτοvleniya zayavlyaemοgο οgnegasyaschegο maτeρiala mοzheτ bπg legκο ρealizοvan on sτandaρτnοm χimichesκοm οbορudοvanii and vκlyuchaeτ sτadii following: 1. Μiκροκaπsuliροvanie ποzhaροτushaschegο agenτa meτοdοm zhidκοφaznοgο ρazdeleniya in vοdnοm ρasτvορe ποlimeρa οbοlοchκi. Non-functional parameters in the framework of the specified method are used to share physical and physical discomforts π. 2. The delivery of ingredients, namely: grind, remover, and quick-release agent in a heated agent equipped with a stirrer.

3. Stirring the mix.

4. Filling the lithium fluid with a liquid mixture. 5. Removal of the material.

According to the invention, depending on the used lithium form, the material may be released in the form of sheets for the manufacture. or pre-packaged goods, good weather equipment. If the material

SIGNIFICANT FOX (DR. 26 \ ΥΟ 99/56830 ΡСΤ / Κυ98 / 00138

5

comes in the form of a good newsletter. stages 3 and 4 are not available. and at stage 1, the operator is not entered into the competition. All components of the proposed material are non-hazardous. and their use is not limited to the Real Agreement by the following similar documents.

Intended use

NOTE 1

Κ 29.12 g of an approved epoxy resin (I) as follows:

Κ [(СΗ ₂ - СΗ - Ο) _η - СΗл-СΗ - СΗ ₂ ] _Ш ,

I \ /

СΗ ₂ С1 Ο

where Κ. - the rest of glycerin. η = 5 ÷ 6, t = 2 ÷ 3 add 7.28 g of epoxy dianese resin (II), which is a special product of the condensation of diphenylpropane, and the mixture is mixed. Zaτem πορtsiyami vvοdyaτ miκροκaπsuliροvannοgο 60 g of 2-iοdgeπτaφτορπροπana (III), πρedvaρiτelnο ποluchennοgο meτοdοm zhidκοφaznοgο ρazdeleniya in vοdnοm ρasτvορe zhelaτina and πρi πeρemeshivanii dοbavlyayuτ ποlieτilenποliamina 3.6 g (PEPΑ). Μassοvοe sοοτnοshenie ποlimeρnοgο svyazuyushegο, vκlyuchayuschegο I, II and PEPΑ and miκροκaπsuliροvannοgο ποzhaροτushaschegο agenτa (III) sοsτavlyaeτ 40: 60. Pοsle τschaτelnοgο πeρemeshivaniya κοmποzitsiyu zalivayuτ in φορmy and οτveρzhdayuτ in τechenie 48 chasοv πρi τemπeρaτuρe 20 ÷ 25 ° C. Physical and mechanical indices of the specified ratio: the tensile stress and the tension are 4.1 ÷ 4.5 ° C, the elongation is wide and the gap is 25 ÷ 35%.

The extinguishing ability of the material was evaluated using the following method. A flame-retardant compression plate in the form of a plate with a thickness of 5 mm was secured throughout the entire internal surface and the metal spreader

SIGNIFICANT FOX (DR. 26) \ νθ 99/56830, ΡСΤΛШШ98 / 00138 ο

150x150x150 mm. Β In the center of the box at the bottom they placed a hinge of gasoline and burned. The extinguishing agent was divided visually through the special walks between the drawer walls, which also served as a safety access to the burner, resulting in an increase in the risk of damage. The time for extinguishing the burner at the moment of ignition to the disappearance of the flame, a separate procedure for the described method, was 5 seconds. After extinguishing the burn, the mass of the remaining gasoline was 90–95% of the original. In the absence of the GPG on the inside of the drawer (external experiment), gasoline was completely burned out. For example, 2 Κ 43.68 g of resin I added 10.92 g of resin II. The mixture was stirred and 5.4 g of PEPΑ was added. After stirring, they introduced 40 g of micro-encapsulated 2-dose (massive body weight of 60 binder). After thorough stirring, the mixture was poured into the form and waited for 48 hours at a temperature of 20 ÷ 25 ° С. Impact of materials: tensile stress and tension - 9.4 - 9.7 psi. Relative elongation at a rate of 35–45%. extinguishing time - 7 seconds.

For example, 3 Κ 36.4 g of resin I added 3.6 g of PEPΑ. After stirring, 60 grams of micronized 2-step preparation was introduced. Further, the compilation was prepared in a similar fashion. 1. Impact of material: Impacting voltage and stress - 0.7 - 1.1 PSa. A slight elongation and an increase of 35–60%, while extinguishing the fire, is 15 seconds.

SIGNIFICANT FOX (DR. 26) \ νθ 99/56830 „ΡСΤ / ΚШ8 / 00138

7

Example 4

Κ 36.4 g of resin II added 3.6 g of PEPΑ. After stirring, 60 grams of micronized 2-step preparation was introduced. Further, the company prepared an analogous example 1. Material: Impacting voltage and tension - 21, 1 ÷ 24.2 Μ Pa. A slight elongation and an extension of less than 5%, while extinguishing the fire, is 15 seconds. Example 5

Composed on the basis of Example 1, differing in that the mass ratio of the smiles I and II is 1: 1. Material characteristics: tensile stress and tension - 12.3 ÷ 14.1 Μ Pa. extinguishing time - 7 seconds. Example 6

Composed on the basis of Example 1, which differs in that the mass ratio of the smiles I and II is 1: 4. Impacts of material: tensile stress and strain - 18.8 ÷ 20.1 Μ Pa, significant elongation and shock - 20 - 35%, while extinguishing - less than 5 seconds. Example 7

Composed on the basis of Example I, which is distinguished by the fact that instead of a micro-encrypted 2-method, a micro-encrypted 1-method was used. Impacts of the material: blowing voltage at a stretch of 4.1 ÷ 4.5 degrees, a significant elongation at a break of 25 ÷ 35%, while extinguishing is 5 seconds. Example 8

Having been compiled for example 1, it is distinguished by the fact that, instead of a micro-encapsulated 2-step, the company enters into the compulsory com pensation. Variable material: discharging voltage and tension - 4.0 ÷ 4.5%, significant elongation of pressure and other - 25 ÷ 35%, while extinguishing - 10 seconds.

SIGNIFICANT FOX (DR. 26) ν θ 99/56830 ₈ ΡСΤ / Κυ98 / 00138

Example 9

Composed on the basis of I. different. in place of a micro-encapsulated 2-unit, a micro-encapsulated unit was introduced into the company. Impacts of the material: the blowing voltage and tension are 4.2–4.5 ppa. A slight elongation at a rate of 25–35%, while extinguishing the fire, is 15 seconds.

Example 10

Having composed, for example, 1, which, apart from a micro-encapsulated 2-unit, enters into the compilation, it employs an empirical one. Impacts of material: tensile stress at tension - 4.1 - 4.3 Μ Pa, negative elongation at shock - 25 - 35%, while extinguishing - 15 seconds.

Note ρ 1 1

Having composed, for example, 1, which, apart from a micro-encapsulated 2-dose, enters into the compulsory medication. Impacts of material: tensile stress at tension - 4.2 - 4.4 degrees, significant elongation at break - 20 - 35%, while extinguishing - 10 seconds.

Example 12

Κ 80 g of linear polysyrpilengle with a mass of 1000 add 20 g of diluted pollen with a mass of 1,500, After a thorough stirring of the products, they introduced 177 g of a micro-encapsulated 2-step preparation. The mixture is poured into forms and allowed to stand for 48 hours at a temperature of 20 ÷ 25 ° C. Impact of material: Impacting voltage πριι of tension - 1, 0 ÷ 1.5 ΜPa,

SIGNIFICANT FOX (DR. 26)

Relative elongation at a rate of 30–40%. Extinguishing time - 12 seconds.

Example 13

Composed. similar example 10. distinguished by the fact that 78.7 g of a micro-encapsulated 2-year-old were introduced into the company. Material characteristics: tensile stress and tension - 1, 3 ÷ 1, 7 Μ Pa. Relative elongation at break - 40 ÷ 45%. extinguishing time - 15 seconds.

Example 14

Κ 80 g of complex dietary alcohol on the basis of adipic acid and diethylene glycol add 0.56 g of glycerin. all stir and introduce 8.7 g of toluene diisocyanate and 0.008 g of dibutyl dilaurate of tin. After stirring, a special 134.6 g of micro-encapsulated Ι-supplemented product is introduced. After stirring, place the mixture in the form and wait 48 hours at a temperature of 20 ÷ 25 ° С.

Material material: tensile stress and tensile - 2.0 ÷ 2.5 Μ Pa, negative elongation and sharp - 30 ÷ 40%, while extinguishing

- 12 seconds.

Example 15

Composed. analοgichny πρimeρu 12. οτlichayushiysya τem, chτο miκροκaπsuliροvanny 1- iοdgeπτaφτορπροπan vvοdyaτ in κοmποzitsiyu in κοlichesτve 59.8 g Χaρaκτeρisτiκi maτeρiala: ρazρushayuschee naπρyazhenieπρi ρasτyazhenii - 2.4 ÷ 2.8 ΜPa, οτnοsiτelnοe elongation πρi ρazρyve - 45 ÷ 55%, vρemya τusheniya Friday - 15 seconds.

The best embodiment of the invention The most efficient delivery is provided by the computer. The following is used: Κ 29.12 g of suitable epoxy resin (I) of the following:

Κ [(СΗ, - СΗ - Ο) _η - СΗο-СΗ - СΗ ₂ ] _t . ι \ /

СΗ ₂ С1 Ο

SIGNIFICANT FOX (DR. 26) /

10

where Κ. - the rest of glycerin, η = 5 ÷ 6. t = 2 ÷ 3 add 7.28 g of epoxy dianese resin (II), which is a representative of the mixture of diphenylpropane, and the mixture is absorbed by the additive. Then, the preparations introduce 60 g of a micro-encapsulated 2-type compound (III) and, while stirring, add 3.6 g of polyethylenepolyamine (PEP). The average share of the binder, including I, II and PEPΑ, and the small escaping agent (III) is 40:60. After thoroughly stirring the mixture, pour the mixture into the form and wait for 48 hours at a temperature of 20 ÷ 25 ° С. Sources of Information

1. Patent ΡΦ ^ ο 2028348, ΜΚ AND C09 ϋ 163/00, 1996.

2. Patent ΡΦ-Чо 2043378, ΜΚ и С09 Κ 5 / 18- 163/00, 175/00, С09 ϋ 163/00, 1996.

3. "Ιηшшайοη" - 1992, Liene, ρ.23. 4. Α.s. СССΡ ΛЬ 1699476, ΜΚИ Α 62 С 35/00, 1991.

5. The application of the United States of America 2265309. ΜΚand Α62 ϋ1 / 00, 1993.

6. U.S. Patent No. 51 19878. ΜΚ AND Α62 ϋ 1/00, 1992.

7. Patent of the United States Μ "51 17917. ΜΚand Α62 ϋ 1/00, 1992.

8. Α.s. СССΡ. Чо 1804867. ΜΚI Α62 С 35/00, 1993. 9. Patent СШΑ ЬЬ 5141654. ΜΚИ Α62 Э 1/00, 1992.

10.3 aka \ νθ .49 9526218, ΜΚand Α62 ϋ 1/08, 1995.

1 1. U.S. Patent ^ 5219474. ΜΚand Α62 Ό 1/00, 1/08. 1995.

12. Application ΕΡ He 94054068. ΜΚ AND Α62 ϋ 1/08, 1994.

13. "Αϊгϋηег", Αρгϊкϊиηе 1997, ρ. 41 14. Application of Japan .Ν9 57 - 195128. ΜΚand С09 .Ι 9/00. Α62 ϋ 1/00. 1982.January 15, 58 - 132056, ΜΚand C09 ϋ 5/18, 1983 16.Α. from. СССΡ ΛЬ 1696446. ΜΚand С 09 ϋ 163/00. C09 Κ 21/08. 1991.

ΕΗYAU IJ LISΤ PΡΑΒILΟ 26

Claims

11ΦΟΡΜULΑ IZBΟIA

1. Οgnegasyaschy ποlimeρny κοmποzitsiοnny maτeρial, sοsτοyashy of ποlimeρnοgο svyazuyuschegο χοlοdnοgο οτveρzhdeniya and ποzhaροτushaschegο agenτa, οτlichayuschiysya τem, chτο in κachesτve ποzhaροτushaschegο agenτa isποlzuyuτ veschesτva κlassa galοgenορganichesκiχ sοedineny having φορmulu:

C ₃ Ρ ₇ б either C _η Ρ _{2η + 2 or} С (C ₂ Ρ ₅ ) ₂ С (C _t p2 _{t +} ι), where ^η = 5 - 7, t = 1 - 2, in the form of microcapsules, which represent a unique 100 ÷ 400 microns in diameter, which consist of a polimer and a prisoner inside it, a liquid extinguishing agent, and in addition to this, a small amount of oil is consumed. %: micro-encapsulated fire-extinguishing agent - 40 ÷ 60; The ultimate binder is the rest.

2. The first paragraph, which is distinguished by the fact that it provides a safe, non-hazardous, non-hazardous product.

3. Μaτeρial πο ggunκτu 1 οτlichayuschiysya τem, chτο ποlimeρnοe binder χοlοdnοgο οτveρzhdeniya vybρayuτ of κlassa ποlieποκsidοv on οsnοve dianοvyχ or aliφaτichesκiχ in τοm including - χlορsοdeρzhaschiχ, eποκsidnyχ smοl or mixtures dianοvyχ and aliφaτichesκiχ eποκsidnyχ smοl or κlassa ποliuρeτanοv.

4. The procedure for paragraphs 1 to 3, which is different from the fact that it provides a free plate for the payment of transfers.

5. The paragraphs 1 to 3, which are distinguished by the fact that they provide a good basis for the good judgment.

6. The process of paragraphs 1 to 3, which is different. THAT REPRESENTS THE FACILITIES OF THE SPECIFIED CONFIGURATION.

SIGNIFICANT FOX (DR. 26) ΜΕΗΜΕΗΗΗΑΗΗΑ ΟΡΜΟΡΜΑΑΑ ΑΟΟΡΕΤΕΗΡΕΤΕΗ

[Received by the International Bureau on September 6, 1999 (September 6, 1999); The originally stated paragraph of the formula of the invention 1 was amended; The rest of the items are left unchanged (1 page)]

1. Οgnegasyaschy ποlimeρny κοmποzitsiοnny maτeρial, sοsτοyaschy of ποlimeρnοgο svyazuyuschegο χοlοdnοgο οτveρzhdeniya and ποzhaροτushaschegο agenτa, οτlichayuschiysya τem, chτο in κachesτve ποzhaροτushaschegο agenτa isποlzuyuτ veschesτva κlassa galοgenορganichesκiχ sοedineny having φορmulu:

C ₃ Ρ ₇ 1 or C _η Ρ _{2η + 2} or (C ₂ Ρ ₅ ) ₂ Ν (C _t Ρ _{2t + ι} ), where η = 5 - 7, t = 1 - 2, in the form of microcapsules, opening in and out , vχοdyaschey in inτeρval 130 - 190 ° C, πuτem sinχροnnοgο miκρορazρyva maτρitsy and οbοlοchκi miκροκaπsuly with vzρyvοποdοbnym vybροsοm πaροv οgneτushaschegο agenτa in zοnu ποzhaρa, πρivοdyaschim κ ποdavleniyu οgnya and πρedsτavlyayuschiχ sοbοy miκροsφeρy diameτροm 100 ÷ 400 mκm, sοsτοyaschie of ποlimeρnοy οbοlοchκi and zaκlyuchennοgο vnuτρi its liquid extinguishing agent, at the same time, the ratio of the components of the material makes up, wt. %: micro-encapsulated fire-extinguishing agent - 40 ÷ 60; The ultimate binder is the rest.

2. The first paragraph, which is distinguished by the fact that it provides a safe, non-hazardous, non-hazardous product.

3. Μaτeρial πο πunκτu 1 οτlichayuschiysya τem, chτο ποlimeρnοe binder χοlοdnοgο οτveρzhdeniya vybρayuτ of κlassa ποlieποκsidοv πa οsnοve dianοvyχ or aliφaτichesκiχ in τοm including - χlορsοdeρzhaschiχ, eποκsidnyχ smοl or mixtures dianοvyχ and aliφaτichesκiχ eποκsidnyχ smοl or κlassa ποliuρeτanοv.

4. The procedure for paragraphs 1 to 3, which is different from the fact that it provides a free plate for the payment of transfers. 5. The paragraphs 1 to 3, which are distinguished by the fact that they provide a good basis for the good judgment.

6. The article at paragraphs 1–3, which is characterized by the fact that it delivers special parts of a given configuration.