CN105462161A - Phenolic resin composition, and foamed material and formed material prepared therefrom - Google Patents

Abstract

The invention relates to ahenolic resin composition, and a foamed material and a formed material prepared therefrom, and belongs to the field of polymer materials. The phenolic resin composition includes solid phenolic resin, a phenolic resin foaming agent, foamex beads and carboxy terminated nitrile rubber particles, wherein foamed base resin adopted by the foamex beads is resin with the thermal deformation temperature being higher than 90DEG C under 0.45MPa load. The foamed material comprises a cross-linked and foamed phenolic resin matrix, and the foamex beads and the carboxy terminated nitrile rubber particles which are dispersed in the matrix, and is prepared from the phenolic resin composition. The foamed material has a low heat conduction coefficient and an excellent flame retardation performance. The formed material prepared from the foamed material can be used as a heat insulation material not burning when meeting open fire, a sound insulation material, a damping material or an imitating wood material.

Description

The foam material of a kind of phenol resin composition and preparation thereof and formed material

Technical field

The present invention relates to polymeric material field, further, relate to foam material and the formed material of a kind of phenol resin composition and preparation thereof.

Background technology

Because building energy consumption is higher, when present energy day is becoming tight, carrying out energy-saving heat preserving to buildings is a required measure.

Phenolic aldehyde foam thermal insulation material good flame retardation effect, do not drip under naked light condition, do not burn, do not have toxic and harmful to release, namely have and meet that naked light does not burn, smokeless, nontoxic performance, but its fragility is large, easily efflorescence, make transport and construction have certain difficulty, limit its application.

The method of current use is by phenol formaldehyde foam and polystyrene foam composition composite foam material, prepares the lagging material simultaneously with the flame retardant resistance of phenolic aldehyde and the heat-insulating property of polystyrene foamed.At present in preparation process, the method for employing expanded polystyrene bead and liquid phenolic resin is mixed with the composite foam material of phenol formaldehyde foam and polystyrene foam composition and corresponding sheet material.Such as, but due to the obtained structure of final sheet material and the wayward of preparation process, make the application of this method be restricted, the resin plate structure that this method obtains is uneven.Simultaneously because the preservation period of expanded polystyrene bead and liquid phenolic resin composition is short, limit the output of expanded polystyrene bead and liquid phenolic resin composition, cannot the corresponding resin plate of large batch of production, cause resin plate to be difficult to suitability for industrialized production.

Publication number is that the English Patent of GB2013209 (A) is in order to overcome the uneven shortcoming of final resin plate structure, liquid towards resol and the component such as solidifying agent and whipping agent thereof have carried out strict regulation, the foaming of resol or expansion process are separated with its curing schedule, simultaneously very strict to the control of the temperature of each step in whole preparation process, so whole preparation process heat-processed is complicated, restriction for temperature is very strict, but the preservation period not solving expanded polystyrene bead and liquid phenolic resin composition is short, the shortcoming of corresponding resin plate cannot be produced in large quantity.

The present inventor is in order to comprehensively solve the above-mentioned problems in the prior art, and the foam material of even structure, flame retardant properties and excellent thermal insulation performance prepared by the resol/expanded resin beads matrix material that adopted solid phenolic resin and expanded resin beads to prepare in Chinese patent application CN102690494A.Because resol adopts solid phenolic resin, and the heat-drawn wire of expanded resin beads used is higher, so the problem that prepared resol/expanded resin beads composition does not have preservation period short, also not by the impact of condition of cure.Can as the incombustible sound-proof material of chance naked light, cushioning material, imitated wood material etc., especially can use as the incombustible lagging material of the chance naked light of various highly effective and safe, such as, can use as the heat preservation plate material that the chance naked light of building trade is incombustible, safe.But still there is the larger problem of certain proportion in prepared foam material.

Summary of the invention

In order to solve the problems of the technologies described above, the present inventor adds Foaming of phenolic resin agent and carboxy nitrile rubber particle in the process preparing resol/expanded resin beads matrix material simultaneously, resol in the foam material of gained is foamed with certain multiplying power, reduces the proportion of foam material; Simultaneously owing to adding the carboxy nitrile rubber particle with crosslinking structure in resol, can make the abscess of foamed phenolic resin more evenly and rate of closed hole is improved, the thermal conductivity of final foam material further prepared by reduction.So the foam material that aforesaid method obtains not only has more excellent heat-insulating property and outstanding flame retardant properties, and solve the problem that in prior art, common foamed phenolic resin rate of closed hole is little well.This kind of foam material can prepare formed materials such as meeting the incombustible sound-proof material of naked light, cushioning material, imitated wood material, especially can use as the incombustible lagging material of the chance naked light of various highly effective and safe, such as, can use as the heat preservation plate material that the chance naked light of building trade is incombustible, safe.

First object of the present invention is to provide a kind of phenol resin composition.

Second object of the present invention is to provide a kind of foam material and preparation method thereof, and this foam material is prepared by described phenol resin composition and obtains, and has lower thermal conductivity, excellent flame retardant properties.

3rd object of the present invention is to provide a kind of formed material, is obtained by the above foam material.This formed material can as uses such as the incombustible lagging material of chance naked light, sound-proof material, cushioning material, imitated wood materials.

Phenol resin composition of the present invention, includes blended following component: solid phenolic resin, Foaming of phenolic resin agent, expanded resin beads and carboxy nitrile rubber particle.

The volume ratio of described solid phenolic resin and expanded resin beads is 5 ︰ 95 ~ 95 ︰ 5, preferably 5 ︰ 95 ~ 80 ︰ 20, more preferably 5 ︰ 95 ~ 40 ︰ 60.Wherein, when concrete practice, the enforcement of described volume ratio is volume ratio as required, calculating these two kinds of components weight required separately according to the densometer of these two kinds of components before blended for said components, getting heavy and obtaining.

Described carboxy nitrile rubber particle is 100 weight parts with solid phenolic resin, and its content is 0.5 ~ 95 part, preferably 1 ~ 45 part, more preferably 1 ~ 30 part, preferably 1 ~ 25 part further.

Described Foaming of phenolic resin agent consumption can regulate according to the expansion ratio of required solid phenolic resin.(expansion ratio of described resol controls at 0.5 ~ 100 times usually, preferably 0.5 ~ 50 times, more preferably 0.5 ~ 20 times.) general be 100 weight parts with solid phenolic resin, its content is 0.5 ~ 50 part, preferably 1 ~ 30 part, more preferably 1 ~ 20 part.

Described solid phenolic resin in phenol resin composition of the present invention is the existing various solid phenolic resin of prior art, can be prepared by polycondensation phenol and aldehyde.The kind of the present invention to solid phenolic resin does not limit, and can be heat-reactive phenolic resin, also can be novolac resin.

For the preparation of the phenols of described solid phenolic resin, there is no particular limitation, such as can comprise following in any one: phenol, ortho-cresol, meta-cresol, p-cresol, phlorol, m-ethylphenol, p-ethyl phenol, o-propylphenol, between propylphenol, n-propyl phenol, to sec-butyl phenol, p-tert-butylphenol, p-cyclohexylphenol, para-chlorophenol, o-bromophenol, m-bromoacetophenone, p bromophenol, naphthyl alcohol, 2-Naphthol, Resorcinol, pyrocatechol, Resorcinol, 2, two (4 '-hydroxy phenyl) propane of 2-, two (hydroxy phenyl) methane, two (hydroxynaphenyl) methane, tetramethyl biphenyl phenol, xenol, three (hydroxy phenyl) methane etc.Wherein, preferred phenol.These phenol can be used alone or with it two or more any combination use.

For the preparation of the aldehyde of described solid phenolic resin kind also without any restriction, such as can comprise following in any one: formaldehyde, paraformaldehyde, trioxymethylene, acetaldehyde, paraldehyde, furfural, phenyl aldehyde etc.These aldehyde can be used alone or with it two or more any combination use.

The solid phenolic resin that the present invention uses can be powdery or particulate state, can be commercially available powdered phenol-formaldehyde resin, uses after also commercially available solid phenolic resin can being pulverized with industrial conventional any disintegrating apparatus.

Foaming of phenolic resin agent in phenol resin composition of the present invention is the existing various whipping agent that can be used for Foaming of phenolic resin in prior art, and it is the whipping agent of blowing temperature lower than the heat resisting temperature of expanded resin beads of the present invention.It can be at least one in the solidifying agent of chemical foaming agent, pneumatogen or the resol that can make Foaming of phenolic resin.

Wherein chemical foaming agent can be the mixture of following material or following material; but be not limited only to following material: azo-compound, carbonic ether compound and hydrazide-based compound; wherein specifically can comprise azodicarbonamide, Diisopropyl azodicarboxylate, benzol sulfohydrazide, 4; 4-oxybenzene sulfonyl base-Urea,amino-, p-toluenesulfonyl-Urea,amino-, Barium azodicarboxylate, N; N '-dimethyl-N, N '-dinitroso pentamethylene tetramine and trihydrazinotriazine etc.Wherein pneumatogen can be at least one in following material, but be not limited only to following material: pentane, hydrofluoric ether (hydrofluorocarbons, HFC), chlorine hydrofluoric ether (hydrochlorofluorocarbons, HCFC) and perfluorination or partially fluorinated ether.The solidifying agent that wherein can make the resol of Foaming of phenolic resin can be the mixture of following material or following material, but is not limited only to following material: hexamethylenetetramine, aniline, trimeric cyanamide etc.

In addition, resol Nucleating Agent in prior art can also be added as required in solid phenolic resin, resol Nucleating Agent can be at least one in following material, but be not limited only to following material: silicon-dioxide, calcium carbonate, talcum powder, zinc oxide, borax, zinc borate, aluminium hydroxide, magnesium oxide, carbon black, phenylformic acid, o-2 potassium acid, terephthalic acid, benzene sulfonic acid sodium salt, Sodium Benzoate, y-bend benzyl sorbitol etc., its consumption is generally 0.01% ~ 5% of basic solid phenolic resin weight.

(some resol such as heat-reactive phenolic resin can solidify by direct heating can to use or not use solidifying agent in the solidification process of resol, solidifying agent can not be used), solidifying agent can for can be used for the various solidifying agent of phenolic resin curing in prior art, as the epoxy-polyester resin of various formaldehyde derivatives, hexamethylenetetramine, paraformaldehyde, hexa methoxy trimeric cyanamide, trimellitic acid 1,2-anhydride, epoxy resin, resole, melamine resin, pre-reaction and/or other known solidifying agent etc.The consumption of solidifying agent is conventional amount used.

Weighting agent conventional in resol manufacture field also can be added, such as filler, curing catalyst, foam stabilizer, lubricant, tinting material, softening agent, processing aid etc. in above-mentioned composition.Described filler loading is conventional amount used, or adjusts according to the requirement of practical situation.

The foaming base resin that described expanded resin beads adopts be under 0.45MPa load heat-drawn wire higher than 90 DEG C, preferably higher than 100 DEG C, more preferably higher than the resin of 110 DEG C.

The heat-drawn wire of macromolecular material being used as foaming base resin is tested according to GB/T1634-2004, and testing load used is 0.45MPa, temperature rise rate (120 ± 10) DEG C/h.

The foaming base resin that above-mentioned expanded resin beads adopts specifically comprises at least one in following various resin: (1) olefin homo and/or olefin copolymer; (2) poly(4-methyl-1-pentene); (3) polyamide resin and/or its modified product; (4) polycarbonate resin and/or its modified product; (5) homopolymerization and/or copolymerized methanal; (6) different monounsaturated dicarboxylic acid and dibasic alcohol are by the obtained linear polyester of polycondensation; (7) aromatic ring polymer, the i.e. polymkeric substance that is only made up of aromatic ring and linking group of molecule, as polyphenyl, polyphenylene oxide, polyphenylene sulfide, polyarylsulphone, poly aryl ketone, Aromatic polyester, aromatic polyamides; (8) heterocyclic polymer, namely molecular backbone chain also has except aromatic ring the macromolecular material of heterocycle, as polybenzimidazole; (9) fluoropolymer etc.

Foaming base resin preferably includes at least one in olefin homo and/or olefin copolymer, as: (1) alfon and/or propylene copolymer; (2) Alathon and/or ethylene copolymer.

Foaming base resin more preferably comprises at least one in alfon and/or propylene copolymer.

The expansion ratio of above-mentioned expanded resin beads is 0.5 ~ 100 times, preferably 1 ~ 70 times, is more preferably 1 ~ 50 times, preferably 40 ~ 50 times further.

The expansion ratio b of expanded resin beads is by the density p by base resin ₁divided by the apparent density ρ of expanded resin beads ₂(b=ρ ₁/ ρ ₂) obtain.The apparent density ρ of expanded resin beads ₂be determined as follows: about 5g expanded resin beads is left standstill 48 hours at 23 DEG C in an atmosphere, gets a graduated cylinder, by expanded resin beads in 23 DEG C of water be immersed in this graduated cylinder.From the apparent volume (v) of the increment determination expanded resin beads of this volume.The quality (m) of expanded resin beads just can be obtained apparent density (ρ divided by its apparent volume ₂=m/v).

Expanded resin beads of the present invention can select in prior art the commercially available prod of the existing expanded resin beads meeting application claims, also can make by oneself.The preparation method of expanded resin beads of the present invention is existing expanded resin beads preparation method in prior art, without any restriction, as long as the requirement meeting expansion ratio is just passable, such as, extrusion foaming or autoclave foam process can be adopted to be prepared.

The method wherein adopting extrusion foaming technique to prepare expanded resin beads can adopt method as described in patent CN1188264C, CN1861368A or CN101352923B to carry out.After concrete grammar comprises and one or more base resins (such as one or more polypropylene) and whipping agent being mixed, melt extruded by extrusion system, ensure in extrusion that the temperature and pressure condition of extrusion system is enough to maintenance resin and whipping agent is homogeneous phase molten state or melting dispersion in extrusion, then the resin mixed and whipping agent through extruding dies extrusion foaming and pelletizing, finally obtained expanded resin beads.

The whipping agent used can be pneumatogen or chemical foaming agent.

Pneumatogen can be injected in base resin with the form of gas, supercutical fluid or liquid.Consider the distribution of the toxicity of whipping agent, vapour pressure, process difficulty or ease and the solvability of base resin used, preferably non-combustible, nontoxic, the whipping agent that do not consume ozone is as carbonic acid gas, nitrogen, water, SF ₆, nitrous oxide, argon gas, helium, rare gas element as xenon, air (nitrogen and oxygen admixture), and the adulterant of these materials, also can select flammable whipping agent as pentane, butane and other organic materialss.Other suitable pneumatogens comprise, such as hydrofluoric ether (hydrofluorocarbons, HFC), chlorine hydrofluoric ether (hydrochlorofluorocarbons, HCFC) and perfluorination or partially fluorinated ether.

Chemical foaming agent adds in polymkeric substance at lower than the temperature of foaming agent decomposition temperature, generally adds in base resin before entering forcing machine.The chemical foaming agent activation when resin is heated to above foaming agent decomposition temperature, whipping agent decomposes release gas as N ₂, CO ₂and/or H ₂o.Whipping agent can be following material but be not limited only to following material: azo, carbonic ether and hydrazide-based compound; comprise azodicarbonamide, Diisopropyl azodicarboxylate, benzol sulfohydrazide, 4; 4-oxybenzene sulfonyl base-Urea,amino-, p-toluenesulfonyl-Urea,amino-, Barium azodicarboxylate, N; N '-dimethyl-N, N ' dinitroso pentamethylene tetramine and trihydrazinotriazine etc.

Foaming agent consumption regulates according to the expansion ratio of required expanded resin beads.

Extrusion foaming technique is adopted to prepare in the process of expanded resin beads and can also add Nucleating Agent as required, Nucleating Agent can be following material but be not limited only to following material: silicon-dioxide, calcium carbonate, talcum powder, zinc oxide, borax, zinc borate, aluminium hydroxide, magnesium oxide, carbon black, phenylformic acid, o-2 potassium acid, terephthalic acid, benzene sulfonic acid sodium salt, Sodium Benzoate, y-bend benzyl sorbitol etc., its consumption is generally 0.01% ~ 5% of base resin weight.

Adopt extrusion foaming technique to prepare in the process of expanded resin beads and can also add conventional general plastic processing additives as required, as oxidation inhibitor, aid anti-oxidants, lubricant, look mother etc., consumption is conventional amount used.

Adopting extrusion foaming technique to prepare expanded resin beads forcing machine used can be one in single screw extrusion machine, two serial single-screw extruders, parallel dual-screw extruding machine, parallel dual-screw extruding machine Series Sheet screw extrusion press, counter rotation twin screw extruder, conical double screw extruder, three-screw extruder.

The method adopting autoclave foam process to prepare expanded resin beads can adopt the method as described in patent CN1474849A to carry out.Such as can adopt and base resin is prepared into resin particle by any applicable known method, then, with whipping agent, this resin particle be foamed, obtain the resin beads of final foaming.Wherein common foaming method can be adopted to carry out by the step that whipping agent makes this resin particle foam, such as in an encloses container, deposit in case at whipping agent, by this dispersing resin microparticles in dispersion medium, then heat whipping agent is flooded in resin particle.Under the pressure and temperature of this encloses container being remained on the pressure condition and temperature condition being enough to this resin particle is foamed, then with this understanding the component in encloses container is discharged in a kind of atmosphere of the pressure lower than the pressure in this encloses container, thus obtains the resin beads of foaming.

Above-mentioned dispersion medium can be any dispersion medium, as long as it can make this dispersing resin microparticles in wherein but do not dissolve this resin particle.The example of this dispersion medium comprises water, ethylene glycol, methyl alcohol, glycerine, ethanol or its mixture.Preferred a kind of aqueous dispersion medium.

In order to prevent each other melt bonded of resin particle in foaming process, a kind of dispersion agent of micro-solid of organic or inorganic generally can also be added in dispersion medium.General employing inorganic powder materials, such as clay mineral (such as kaolin, mica, clay) that is natural or synthesis, alumina, titanium dioxide, magnesium basic carbonate, zinc subcarbonate, calcium carbonate and magnesium oxide etc.For the resin particle of every 100 weight parts, the consumption of dispersion agent is generally 0.001 ~ 5 weight part.

Adopting autoclave foam process to prepare expanded resin beads whipping agent used can be the inorganic pneumatogen of the organic pneumatogen of any one or any one or its mixture.Wherein organic physical blowing agents can be following material but be not limited only to following material: propane, butane, pentane, hexane and heptane, alicyclic hydro carbons such as tetramethylene and hexanaphthene, and halogenated hydrocarbon such as chlorofluoromethane, trifluoromethane, 1,2-C2H4F2 C2H4F2,1,2,2,2-Tetrafluoroethane, methyl chloride, ethyl chloride and methylene dichloride.Inorganic pneumatogen can be following material but be not limited only to following material: air, nitrogen, carbonic acid gas, oxygen, argon G&W.These organic and inorganic foaming agents can be used alone, and also can use as the mixture of two or more.Consider low cost and the environmental problem of foamex, air or nitrogen are best whipping agent.Water as whipping agent can be the water as the dispersion medium making this dispersing resin microparticles.

The quantity of this whipping agent suitably can regulate according to the kind of this whipping agent, blowing temperature, the expansion ratio of foamex that will produce.

Carboxy nitrile rubber particle in phenol resin composition of the present invention is the carboxy nitrile rubber particle with crosslinking structure, and its median size is 0.02 ~ 1 μm, and be preferably 0.05 ~ 0.5 μm, more excellent is 0.05 ~ 0.2 μm; Its gel content in 60% weight or higher, preferably 75% weight or higher, more preferably 85% weight or higher.The carboxy nitrile rubber particle of equal phase structure can be preferably.

Above-described carboxy nitrile rubber particle is preferably the form of finely divided powder, mehtod carboxy nitrile rubber prepared by international patent application WO01/98395 (priority date on June 15th, 2000) that the international patent application WO01/40356 (priority date on December 3rd, 1999) that submits on September 18th, 2000 according to the applicant and the applicant submitted June 15 calendar year 2001.This kind of form of finely divided powder, mehtod carboxy nitrile rubber refers to that gel content reaches 60% weight or higher, and more excellent is 75% weight or higher, without the need to separant and free flowable rubber micro mist after drying.In this patent application, the median size of powder carboxy nitrile rubber is 0.02 ~ 1 μm, is preferably 0.05 ~ 0.5 μm, is more preferably 0.05 ~ 0.2 μm.Each particulate in this form of finely divided powder, mehtod carboxy nitrile rubber is homogeneous phase, and namely single particulate is all homogeneous on composition, does not find the phenomenon of layering, point equal uneven phase under the observation of existing microtechnique in particulate.This powdered rubber is by fixing corresponding rubber latex cross-linking radiation rubber particles particle diameter.

A kind of foam material of the present invention, comprises and solidifying and the phenolic resin as matrix resin foamed and the described carboxy nitrile rubber particle be dispersed in wherein and expanded resin beads, and be prepared from by phenol resin composition of the present invention.

The preparation method of foam material of the present invention comprise in following methods any one:

Method 1 comprises: the component of each component comprising described phenol resin composition mixed, and makes solid phenolic resin wherein solidify and foam afterwards.

The mixing equipment that above-mentioned mixing step uses is the mixing equipment that plastics processing industry is conventional, such as homogenizer, planetary mixer, cone-type mixer, V-Mixer, Agravicmixer, double-cone mixer, colter mixer, ribbon mixer, double helical ribbon mixer, vacuum mixer, high speed dispersor, double-shaft paddle continuous mixer, kneader etc.

Method 2 comprises the following steps:

Step 1) comprising: first by include described solid phenolic resin and Foaming of phenolic resin agent, carboxy nitrile rubber particle component melts mixing after, pulverize after cooling;

Step 2) comprising: by step 1) blend that obtains mixes with the component of expanded resin beads again, makes solid phenolic resin wherein solidify and foam afterwards.

Step 1) in melting mixing process can commonly use in mixing equipment at thermosetting resin and carry out, as single screw extrusion machine, twin screw extruder, Banbury mixer, opening rubber mixing machine etc., temperature in melting mixing process uses the processing temperature that resol is conventional, as long as whipping agent does not occur to decompose or expand to make Foaming of phenolic resin just passable.Step 1) in the cooling of mixture and crushing process there is no particular requirement, just adopt the cooling that resol is conventional and disintegrating process and equipment just passable.

Step 2) the mixing equipment that uses of mixing step be the mixing equipment that plastics processing industry is conventional, such as homogenizer, planetary mixer, cone-type mixer, V-Mixer, Agravicmixer, double-cone mixer, colter mixer, ribbon mixer, double helical ribbon mixer, vacuum mixer, high speed dispersor, double-shaft paddle continuous mixer, kneader etc.

Above-mentioned mixing step also can add auxiliary agent conventional in resol manufacture field, such as filler, curing catalyst, lubricant, tinting material, softening agent, processing aid etc.Described auxiliary dosage is conventional amount used, or adjusts according to the requirement of practical situation.

Together can mix with all components in the method that is added in 1 of above-described various auxiliary agent, can add in step 1 in method 2, also can add in step 2.

Foam material of the present invention is not subject to the impact of phenolic resin curing system, as long as make the solidification value of heat resisting temperature higher than resol of expanded resin beads.Heat resisting temperature be herein expanded resin beads collapse bubble critical temperature.

If the solidification process of described solid phenolic resin uses solidifying agent, solidifying agent can be at least one in various formaldehyde derivatives in prior art, hexamethylenetetramine, paraformaldehyde, hexa methoxy trimeric cyanamide, trimellitic acid 1,2-anhydride, epoxy resin, resole, melamine resin, the epoxy-polyester resin of pre-reaction and/or other known solidifying agent.The consumption of solidifying agent is conventional amount used.If use solidifying agent in method 2, can in step 1) in add, also can in step 2) in add, if in step 1) in add, then melt temperature is the temperature ensureing that resol curing reaction does not occur and do not foam.By the mixing equipment that the equipment of the solidifying agent of phenol resin composition and resol mixing can adopt foregoing plastics processing industry conventional.

Foam material of the present invention is not by the impact of phenolic resin curing technique, any curing process of resol in prior art can be adopted, such as, can adopt the curing apparatus such as vulcanizing press, tabletting machine, multi-daylight press, baking oven, autoclave, injection moulding machine.

Foam material obtained above be cross-linked and the phenolic resin as matrix resin foamed and the expanded resin beads be dispersed in wherein and have the carboxy nitrile rubber particle of crosslinking structure owing to including, resol in the foam material of gained is foamed with certain multiplying power, reduce the proportion of foam material, simultaneously owing to having the existence of the carboxy nitrile rubber particle of crosslinking structure in resol, make the rate of closed hole of foamed phenolic resin, abscess dispersing uniformity is improved simultaneously, because rate of closed hole and abscess dispersing uniformity improve the thermal conductivity of the foam material prepared by final reduction, so the foam material that aforesaid method obtains has more excellent heat-insulating property and outstanding flame retardant properties.

Formed material of the present invention, is made up of the raw material comprising phenol resin composition of the present invention, or is made up of the raw material comprising foam material of the present invention, or its manufacture method comprises the preparation method of foam material of the present invention.Formed material of the present invention can as the incombustible sound-proof material of chance naked light, cushioning material, imitated wood material etc., especially can use as the incombustible lagging material of the chance naked light of various highly effective and safe, such as, can use as the heat preservation plate material that the chance naked light of building trade is incombustible, safe.

Embodiment

Further describe the present invention by embodiment below, but scope of the present invention is not by the restriction of these embodiments.Scope of the present invention is determined by claims.

Embodiment 1

By acrylic resin (Zhenghai refinery, HMS20Z, heat-drawn wire 110 DEG C under 0.45MPa load) 100 weight parts, talcum powder 2 weight part is put into homogenizer and is fully mixed, gained mixture adds in single screw extrusion machine through charging opening, control die temperature 135 DEG C, pressure is 12MPa.In polypropylene resin composite melt, whipping agent carbonic acid gas is injected with 10MPa pressure by the blowing agent injection port be arranged on extruder barrel.Then by melt through the circular hole die extrusion of diameter 2mm, foaming, obtain expanded polypropylene beads after pelletizing, cooling, drying, expansion ratio is 45 times.

By powdered phenol-formaldehyde resin (Xinxiang Bai Ma sail Industrial Co., Ltd., 2123), solidifying agent (hexamethylenetetramine, technical grade, Beijing Yili Fine Chemicals Co., Ltd. produces), Foaming of phenolic resin agent (ACP-W, great achievement Chemical Industry Science Co., Ltd of Beijing Cigna, blowing temperature is higher than 110 DEG C) and form of finely divided powder, mehtod carboxy nitrile rubber (be in the carboxyl butyronitrile emulsion of HT108 at the Shijiazhuang Hong Tai limited rubber company trade mark, after adding crosslinking coagent Viscoat 295 by 3% of the dry glue weight of carboxyl butyronitrile emulsion, carry out radiation vulanization, radiation dose is 2.5Mrad, the rubber particles of equal phase structure is obtained after spray-dried, its median size is 100nm, gel content is 96.1% weight) to add in homogenizer fully mixing after obtain mixture through twin screw extruder, wherein solidifying agent hexamethylenetetramine and powdered phenol-formaldehyde resin weight ratio are 12/100, the weight ratio of form of finely divided powder, mehtod carboxy nitrile rubber and powdered phenol-formaldehyde resin is 2/100, Foaming of phenolic resin agent (ACP-W) and powdered phenol-formaldehyde resin weight ratio are 5/100.Add described expanded polypropylene beads wherein after cooling crush, mix rear discharging, wherein, the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is 30/70.

Tabletting machine is warming up to 120 DEG C, above material is put into mould on tabletting machine, carries out mold pressing.In gained print, Foaming of phenolic resin multiplying power is 3 times.The print of gained is carried out properties test, records that the results are shown in Table 1.

Thermal conductivity is tested according to GB/T10297 standard.Impact property is tested according to GB/T1843 standard.Combustionproperty is then be placed in by print on alcohol blast burner to stand flame spraying after 10 minutes, observes the state of print.The rate of closed hole of foamed phenolic resin adopts Kang Ta company of the U.S. to produce UPYC1200e type true density instrument and tests according to GB/T10799-2008.

Comparative example 1

Except the weight ratio of form of finely divided powder, mehtod carboxy nitrile rubber and powdered phenol-formaldehyde resin is except 0/100, all the other are all identical with embodiment 1, record that the results are shown in Table 1.

Embodiment 2

Except the weight ratio of form of finely divided powder, mehtod carboxy nitrile rubber and powdered phenol-formaldehyde resin is except 5/100, all the other are all identical with embodiment 1, record that the results are shown in Table 1.

Embodiment 3

Except the weight ratio of form of finely divided powder, mehtod carboxy nitrile rubber and powdered phenol-formaldehyde resin is except 10/100, all the other are all identical with embodiment 1, record that the results are shown in Table 1.

Embodiment 4

Except the weight ratio of form of finely divided powder, mehtod carboxy nitrile rubber and powdered phenol-formaldehyde resin is except 20/100, all the other are all identical with embodiment 1, record that the results are shown in Table 1.

Embodiment 5

Except the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is except 50/50, all the other are all identical with embodiment 1, record that the results are shown in Table 1.

Comparative example 2

Except the weight ratio of form of finely divided powder, mehtod carboxy nitrile rubber and powdered phenol-formaldehyde resin is except 0/100, all the other are all identical with embodiment 5, record that the results are shown in Table 1.

Embodiment 6

Except the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is except 50/50, all the other are all identical with embodiment 2, record that the results are shown in Table 1.

Embodiment 7

Except the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is except 50/50, all the other are all identical with embodiment 3, record that the results are shown in Table 1.

Embodiment 8

Except the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is except 50/50, all the other are all identical with embodiment 4, record that the results are shown in Table 1.

Embodiment 9

Except the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is except 80/20, all the other are all identical with embodiment 1, record that the results are shown in Table 1.

Comparative example 3

Except the weight ratio of form of finely divided powder, mehtod carboxy nitrile rubber and powdered phenol-formaldehyde resin is except 0/100, all the other are all identical with embodiment 9, record that the results are shown in Table 1.

Embodiment 10

Except the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is except 80/20, all the other are all identical with embodiment 2, record that the results are shown in Table 1.

Embodiment 11

Except the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is except 80/20, all the other are all identical with embodiment 3, record that the results are shown in Table 1.

Embodiment 12

Except the volume ratio of powdered phenol-formaldehyde resin and expanded polypropylene beads is except 80/20, all the other are all identical with embodiment 4, record that the results are shown in Table 1.

From the results shown in Table 1, after adding powdered rubber, the rate of closed hole of sample is improved, and the thermal conductivity of sample declines, and the thermal and insulating performance of sample is improved.

Table 1

Claims (18)

1. a phenol resin composition, include blended following component: solid phenolic resin, Foaming of phenolic resin agent, expanded resin beads and carboxy nitrile rubber particle, the volume ratio of wherein said solid phenolic resin and expanded resin beads is 5 ︰ 95 ~ 95 ︰ 5; Be 100 weight parts with described solid phenolic resin, described carboxy nitrile rubber particle is 0.5 ~ 95 part, and described Foaming of phenolic resin agent is 0.5 ~ 50 part; The foaming base resin that described expanded resin beads adopts be under 0.45MPa load heat-drawn wire higher than 90 DEG C, preferably higher than 100 DEG C, more preferably higher than the resin of 110 DEG C; Described carboxy nitrile rubber particle is the rubber particles with crosslinking structure, and its median size is 0.02 ~ 1 μm, and gel content is 60% weight or higher.

2. phenol resin composition according to claim 1, is characterized in that the volume ratio of described solid phenolic resin and expanded resin beads is 5 ︰ 95 ~ 80 ︰ 20, preferably 5 ︰ 95 ~ 40 ︰ 60.

3. phenol resin composition according to claim 1, it is characterized in that with described solid phenolic resin be 100 weight parts, described carboxy nitrile rubber particle is 1 ~ 45 part, preferably 1 ~ 30 part.

4. phenol resin composition according to claim 1, it is characterized in that with described solid phenolic resin be 100 weight parts, described Foaming of phenolic resin agent is 1 ~ 30 part, preferably 1 ~ 20 part.

5. phenol resin composition according to claim 1, is characterized in that foaming base resin that described expanded resin beads adopts comprises at least one in following various resin: (1) olefin homo and/or olefin copolymer; (2) poly(4-methyl-1-pentene); (3) polyamide resin and/or its modified product; (4) polycarbonate resin and/or its modified product; (5) homopolymerization and/or copolymerized methanal; (6) different monounsaturated dicarboxylic acid and dibasic alcohol are by the obtained linear polyester of polycondensation; (7) aromatic ring polymer; (8) heterocyclic polymer; (9) fluoropolymer.

6. the phenol resin composition according to any one of Claims 1 to 5, is characterized in that foaming base resin that described expanded resin beads adopts comprises at least one in olefin homo and/or olefin copolymer.

7. the phenol resin composition according to any one of Claims 1 to 5, is characterized in that foaming base resin that described expanded resin beads adopts comprises at least one in following material: (1) alfon and/or propylene copolymer; (2) Alathon and/or ethylene copolymer.

8. phenol resin composition according to claim 5, is characterized in that described aromatic ring polymer comprises at least one in polyphenyl, polyphenylene oxide, polyphenylene sulfide, polyarylsulphone, poly aryl ketone, Aromatic polyester and aromatic polyamides; Described heterocyclic polymer comprises polybenzimidazole.

9. phenol resin composition according to claim 1, is characterized in that the expansion ratio of described expanded resin beads is 0.5 ~ 100 times, preferably 1 ~ 70 times, more preferably 1 ~ 50 times.

10. phenol resin composition according to claim 1, is characterized in that described carboxy nitrile rubber particle is the rubber particles of equal phase structure.

11. phenol resin compositions according to claim 1, is characterized in that the median size of described carboxy nitrile rubber particle is 0.05 ~ 0.5 μm, are preferably 0.05 ~ 0.2 μm.

12. phenol resin compositions according to claim 1, is characterized in that the gel content of described carboxy nitrile rubber particle is 75% weight or higher.

13. 1 kinds of foam materials, be prepared from by the phenol resin composition described in any one of claim 1 ~ 12, described foam material comprises and solidifying and the described solid phenolic resin matrix foamed and the described expanded resin beads be dispersed in wherein and carboxy nitrile rubber particle.

14. foam materials according to claim 13, is characterized in that the preparation method of described foam material comprises the either method in following methods:

Method 1 comprises: the component of each component of the phenol resin composition described in any one including the claims 1 ~ 12 mixed, make solid phenolic resin wherein solidify and foam afterwards;

Method 2 comprises: step 1), first by include described solid phenolic resin and Foaming of phenolic resin agent, carboxy nitrile rubber particle component melts blended after, pulverize after cooling; Step 2), by step 1) blend that obtains mixes in interior component with described expanded resin beads again, makes solid phenolic resin wherein solidify and foam afterwards.

15., according to the preparation method of a kind of foam material of claim 13 or 14, comprise the either method in following methods:

Method 1 comprises: the component of each component including described phenol resin composition mixed, and makes solid phenolic resin wherein solidify and foam afterwards;

Method 2 comprises: step 1), first by include described solid phenolic resin and Foaming of phenolic resin agent, carboxy nitrile rubber particle component melts blended after, pulverize after cooling; Step 2), by step 1) blend that obtains mixes in interior component with described expanded resin beads again, makes solid phenolic resin wherein solidify and foam afterwards.

16. 1 kinds of formed materials, it is characterized in that being made up of the raw material of the phenol resin composition described in any one comprising claim 1 ~ 12, or be made up of the raw material of the foam material comprised described in claim 13 or 14, or its preparation method comprises the preparation method of foam material according to claim 15.

17. formed materials according to claim 16, is characterized in that described formed material is lagging material, sound-proof material, cushioning material or imitated wood material.

18. formed materials according to claim 17, is characterized in that described formed material is heat preservation plate material.