CN108485199A - A kind of composite material with high dielectric property - Google Patents

Abstract

The present invention relates to a kind of composite material with high dielectric property, preparation includes that high dielectric filler is added in difunctional epoxy systems, and 130 DEG C are stirred 20 minutes, then at 95 DEG C, simple function group epoxy systems, nano alumina particles are added, stirs 130 minutes, obtains glue；It is 60% to adjust glue solid content with propylene glycol methyl ether acetate, then glass cloth is immersed in glue, then after heated drying, obtain composite material with high dielectric property, is protruded with excellent flame retardant property, heat resistance, especially dielectric constant.

Description

A kind of composite material with high dielectric property

Technical field

The invention belongs to electronics technical field of composite materials, and in particular to a kind of composite material with high dielectric property.

Background technology

With the continuous development of science and technology, the application of polymer-based composite is more and more extensive.Meanwhile each application Also to different materials, more stringent requirements are proposed accordingly in field, such as high temperature resistant, resistance to ablation, high dielectric etc..Due to for Size is miniaturized and the further demand of high energy storage density, and huge dielectric constant material is always modern capacitor, filter The hot spot of equal electronic devices research.With fire-retardant attention, it is desirable that product has flame retardant property, fire-retardant to have class requirement, Respectively UL94 V-2, UL94 V-1 and UL94 V-0 ranks, wherein UL94 V-0 ranks are whether existing judgement substance hinders The international standard of combustion.Equalization point is found between fire prevention and environmental protection, is the important node of the following flame retardant products development.Fire retardant exists Importance in modern society can not be ignored, but as a series of environmental protection policies in Europe are put into effect, development and application is to some extent It is restricted.How while support personnel and property are from fire threat, and fire retardant can be made to deposit human body and environment Potential hazard be preferably minimized, be electrical domestic fire retardant manufacturing enterprise, research institution and downstream electronic, building materials, traffic and The common focus of attention of the industries such as furniture.Using complex technique, the advantages of being not only to integrate organic-inorganic material, compatibility is also wanted not Same organic component, is hopeful to prepare the material for meeting commercial Application.

Invention content

The object of the present invention is to provide a kind of composite material with high dielectric property, have excellent dielectric properties, excellent is resistance to Hot, anti-flammability, processability and mechanical property；Our company has applied for multiple patents together simultaneously, illustrates from different directions Central inventive point, it is especially longitudinal deep, it is expected that obtaining comprehensive protection.

To achieve the above object of the invention, the technical solution adopted by the present invention is：

The preparation method of a kind of composite material with high dielectric property, the composite material with high dielectric property includes the following steps：

(1) six water manganese nitrates, cobalt nitrate hexahydrate and iron chloride are scattered in deionized water, 45 is stirred at 110 DEG C Minute, obtain presoma system；Then filtering presoma system obtains presoma；Then presoma passed through into drying, calcined To high dielectric filler；The drying is the lower 105 DEG C of dryings of vacuum；The calcining is under hydrogen/argon gas mixed atmosphere, and 1150 DEG C are forged It burns 3 hours；The volume ratio of the hydrogen/argon gas is 0.5: 10；

(2) at room temperature, 3,3 '-dithiodipropionic acids, dichloromethane, acetone are mixed；Then m-nitrobenzene sulfonic acid pyrrole is added Methyl butynol is added in pyridine salt and diphenyl phosphate, stirring after ten minutes, and stirring adds 2,3- epoxies basic ring penta after 35 minutes Benzylidene aniline is added after 50 minutes in cyclopentyl ether, stirring, continues stirring 5 minutes；Then N is added, N '-dicyclohexyls carbon two is sub- Amine continues stirring 30 minutes, obtains simple function group epoxy systems；

(3) -2 propyl alcohol of 2- methyl is mixed to addition phthalic acid two after ten minutes to contract with isomery undecyl alcohol polyoxyethylene ether In water glyceride, 125 DEG C are stirred 5 minutes, and polyetherimide is then added, and are continued stirring 45 minutes, are obtained difunctional epoxy System；

(4) high dielectric filler is added in difunctional epoxy systems, 130 DEG C are stirred 20 minutes, then at 95 DEG C, are added Enter simple function group epoxy systems, nano alumina particles, stirs 130 minutes, obtain glue；

(5) it is 60% to use solvent adjustment glue solid content, then reinforcing material is immersed in glue, then heated drying Afterwards, composite material with high dielectric property is obtained.

In above-mentioned technical proposal, in step (1), the six water manganese nitrate, cobalt nitrate hexahydrate, iron chloride mass ratio be 1: 1∶0.2。

In above-mentioned technical proposal, in step (2), 3,3 '-dithiodipropionic acids, dichloromethane, acetone, m-nitrobenzene sulfonic acid Pyridiniujm, diphenyl phosphate, methyl butynol, 2,3- epoxy group cyclopenta rings amyl ether, benzylidene aniline, N, N '-dicyclohexyls The mass ratio of carbodiimide is 0.005: 0.15: 1: 0.002: 0.2: 0.02: 1: 0.3: 0.05；Be added methyl butynol when Between be 20 minutes.

In above-mentioned technical proposal, in step (3), -2 propyl alcohol of 2- methyl, isomery undecyl alcohol polyoxyethylene ether, phthalic acid 2-glycidyl ester, polyetherimide mass ratio be 0.2: 0.1: 1: 0.09.

In above-mentioned technical proposal, in step (4), high dielectric filler, difunctional epoxy systems, simple function group epoxy body It is, the mass ratio of nano alumina particles is 0.09: 0.4: 1: 0.01.

In above-mentioned technical proposal, in step (5), in the composite material with high dielectric property, the mass fraction of reinforcing material It is 30%；The reinforcing material is electronic-grade glass fiber cloth；The heat drying is 130 DEG C/30s+160 DEG C/40s+190 ℃/30s.This is critically important for the present invention, especially ensures the dispersibility and compatibility of filler, while ladder-elevating temperature and small point The compatilizer effect of son, in turn avoids the presence of bubble, pin hole, while the tune provided using minute quantity nano alumina particles The effect of whole viscosity and compatibility reaches good dispersion effect.The present invention is by whole compatibility and technological design, obtained ring Oxygen material it is heat-resisting it is fine, fire-retardant very well, hydroscopicity it is low, especially dielectric constant performance is good.

In above-mentioned technical proposal, in step (5), solvent is propylene glycol methyl ether acetate.

Inventor develops cooperatively with school, and creative utilizes hydrogen argon gas mixed gas calcination processing so that in filler Portion's Lacking oxygen increases, and produces more free electrons, and being directly used in resin compounded system in conjunction with micromolecular compound is conducive to ginseng With the solidification process of resin, by several organic molecular species on the one hand adjust filler surface nature, prevent inorganic particulate its to tree Fat generates the too fast influence of partial polymerization, in addition it can adjust crosslinked polymer network so that cured product crosslinking is reasonable, no It is excessive as brittleness, to which conducive to processing, 1.5 millimeters of feed fishing sides reach 57 meters.The present invention is before being added epoxy, first Several compound pre-reactions are mixed with, so as to access high polymer main chain with epoxy reaction, fire-retardant while will not reduce resistance to Heat can also improve wet-heat resisting.The present invention simple function group epoxy and difunctional do not use conventional four-functional group ring Oxygen, it is still heat-resisting good, also improve processability.

The present invention does not use fire retardant, by modified filler and compound effects, is imitated in combination with polymer reaction Fruit, material can form finer and close protective layer in heated and burning, reach excellent hot oxygen screen effect, solid to assign Body adhesives excellent heat resistance and anti-flammability, while mechanical property, adhesive property are good；Overcome the resistance of prior art filler Mechanical properties decrease, the problem of heat-resisting decline that the bonding that combustion agent is brought declines and reactive flame retardant is brought.

Since above-mentioned technical proposal is used, the present invention has following advantages compared with prior art：

Compound system composition provided by the invention is reasonable, then prepares technique, inorganic nanoparticles in obtained base material There is uniform dispersion degree, preparation process to belong to chemical process in system, the inorganic matter of formation is combined with the surface of interlaminar resin Power is much stronger than the surface binding force of traditional physical mechanical blending.The material system composition that the present invention utilizes is reasonable, each to form / compatibility is good, and composite material with high dielectric property has thus been prepared, and has good mechanical property, heat resistance, comprehensive The shortcomings that the advantages of closing polymer, two component of inorganic particulate, two component of improvement, obtains the comprehensive performance of material to improve；Gu Change effect is good, and cross-linked structure is uniform, on the one hand micromolecular compound can increase system as the compatilizer of macromolecule organic On the other hand the compatibility of each component avoids forming crosslinking uneven defect when hot-press solidifying, ensures that resin system forms stabilization Structure, especially improve heat-resisting, the wearability of conventional epoxy, and be free of fire retardant, pass through reasonable reaction, success The hygroscopic defect of existing reactive phosphor-containing flame-proof molecule is avoided, unexpected effect is achieved.

Specific implementation mode

With reference to embodiment, the invention will be further described：

Embodiment one

A kind of composite material with high dielectric property, preparation method includes the following steps：

(1) six water manganese nitrates, cobalt nitrate hexahydrate and iron chloride are scattered in deionized water, 45 is stirred at 110 DEG C Minute, obtain presoma system；Then filtering presoma system obtains presoma；Then presoma passed through into drying, calcined To high dielectric filler；The drying is the lower 105 DEG C of dryings of vacuum；The calcining is under hydrogen/argon gas mixed atmosphere, and 1150 DEG C are forged It burns 3 hours；The volume ratio of the hydrogen/argon gas is 0.5: 10；

(2) at room temperature, 3,3 '-dithiodipropionic acids, dichloromethane, acetone are mixed；Then m-nitrobenzene sulfonic acid pyrrole is added Methyl butynol is added in pyridine salt and diphenyl phosphate, stirring after ten minutes, and stirring adds 2,3- epoxies basic ring penta after 35 minutes Benzylidene aniline is added after 50 minutes in cyclopentyl ether, stirring, continues stirring 5 minutes；Then N is added, N '-dicyclohexyls carbon two is sub- Amine continues stirring 30 minutes, obtains simple function group epoxy systems；

(3) -2 propyl alcohol of 2- methyl is mixed to addition phthalic acid two after ten minutes to contract with isomery undecyl alcohol polyoxyethylene ether In water glyceride, 125 DEG C are stirred 5 minutes, and polyetherimide is then added, and are continued stirring 45 minutes, are obtained difunctional epoxy System；

(4) high dielectric filler is added in difunctional epoxy systems, 130 DEG C are stirred 20 minutes, then at 95 DEG C, are added Enter simple function group epoxy systems, nano alumina particles, stirs 130 minutes, obtain glue；

(5) it is 60% to adjust glue solid content with propylene glycol methyl ether acetate, and then reinforcing material is immersed in glue, Again after heated drying, composite material with high dielectric property is obtained, the mass fraction of reinforcing material is 30%, and heat drying technique is 130 DEG C/30s+160 DEG C/40s+190 DEG C/30s, solve other dryings existing surface pores, crack problem.

In step (1), six water manganese nitrates, cobalt nitrate hexahydrate, iron chloride mass ratio be 1: 1: 0.2；In step (2), 3, 3 '-dithiodipropionic acids, dichloromethane, acetone, m-nitrobenzene sulfonic acid pyridiniujm, diphenyl phosphate, methyl butynol, 2,3- rings The mass ratio of oxygroup cyclopenta ring amyl ether, benzylidene aniline, N, N '-dicyclohexylcarbodiimides are 0.005: 0.15: 1: 0.002 ∶0.2∶0.02∶1∶0.3∶0.05；The time that methyl butynol is added is 20 minutes；In step (3), -2 propyl alcohol of 2- methyl, isomery Undecyl alcohol polyoxyethylene ether, o-phthalic acid diglycidyl ester, polyetherimide mass ratio be 0.2: 0.1: 1: 0.09； In step (4), high dielectric filler, difunctional epoxy systems, simple function group epoxy systems, nano alumina particles mass ratio It is 0.09: 0.4: 1: 0.01.

By 6 above-mentioned composite material with high dielectric property hot-press solidifyings, you can obtain high dielectric property composite plate；Performance test It is shown in Table 1, condition when hot pressing is 5kg/cm²/150℃/15min+5kg/cm²/170℃/50min+8kg/cm²/200℃/ 40min+ Temperature falls.

Comparative example one

As embodiment one, the wherein calcining of step (1) is under argon gas atmosphere, and 1150 DEG C are calcined 3 hours.

Comparative example two

As embodiment one, wherein step (2) is added without diphenyl phosphate.

Comparative example three

As embodiment one, wherein step (3) is added without polyetherimide.

Comparative example four

As embodiment one, wherein step (4) is added without nano alumina particles.

To mechanical performance (unnotched impact strength, the Kj/m of the plank in above-described embodiment and comparative example²), mechanical property Can (1.5 millimeters of feeds, rice), hot property, dielectric constant (1MHz), water absorption rate, it is fire-retardant be determined, as a result referring to table 1.

The performance of 1 composite material with high dielectric property plate of table

	It is fire-retardant	Oxygen index (OI)	Drag for side	Dielectric constant	Tg/℃	Hydroscopicity	Impact strength
								Embodiment one	V0	49	57	129	222	0.058%	8.2
Comparative example one	V0	41	55	56	221	0.059%	8.1
								Comparative example two	V1	28	56	115	196	0.059%	8.2
Comparative example three	V0	38	39	92	190	0.065%	8.1
								Comparative example four	V1	32	46	96	208	0.063%	8.0

To sum up, composite material with high dielectric property composition disclosed by the invention is reasonable, and compatibility is good between each component, thus Composite material with high dielectric property plate has been prepared, there is good flame retardant property, excellent heat resistance, especially have low Hydroscopicity and good dielectric properties.

Claims (8)

1. a kind of composite material with high dielectric property, which is characterized in that the preparation method of the composite material with high dielectric property includes Following steps：

(1) six water manganese nitrates, cobalt nitrate hexahydrate and iron chloride are scattered in deionized water, are stirred 45 minutes at 110 DEG C, Obtain presoma system；Then filtering presoma system obtains presoma；Then presoma is obtained into Gao Jie by dry, calcining Electric filler；The drying is the lower 105 DEG C of dryings of vacuum；The calcining is under hydrogen/argon gas mixed atmosphere, and 1150 DEG C of calcinings 3 are small When；The volume ratio of the hydrogen/argon gas is 0.5: 10；

(2) at room temperature, 3,3 '-dithiodipropionic acids, dichloromethane, acetone are mixed；Then m-nitrobenzene sulfonic acid pyridiniujm is added With diphenyl phosphate, methyl butynol is added in stirring after ten minutes, and stirring adds 2,3- epoxy group cyclopenta rings after 35 minutes Benzylidene aniline is added after 50 minutes in amyl ether, stirring, continues stirring 5 minutes；Then it is added N, N '-dicyclohexylcarbodiimides, Continue stirring 30 minutes, obtains simple function group epoxy systems；

(3) -2 propyl alcohol of 2- methyl is mixed with isomery undecyl alcohol polyoxyethylene ether after ten minutes be added phthalic acid two shrink it is sweet In grease, 125 DEG C are stirred 5 minutes, and polyetherimide is then added, and are continued stirring 45 minutes, are obtained difunctional epoxy systems；

(4) high dielectric filler is added in difunctional epoxy systems, 130 DEG C are stirred 20 minutes, then at 95 DEG C, are added single Functional group's epoxy systems, nano alumina particles stir 130 minutes, obtain glue；

(5) it is 60% to use solvent adjustment glue solid content, then reinforcing material is immersed in glue, then after heated drying, Obtain composite material with high dielectric property.

2. composite material with high dielectric property according to claim 1, it is characterised in that：In step (1), the six water nitric acid Manganese, cobalt nitrate hexahydrate, iron chloride mass ratio be 1: 1: 0.2.

3. composite material with high dielectric property according to claim 1, it is characterised in that：In step (2), 3,3 '-two thio two Propionic acid, dichloromethane, acetone, m-nitrobenzene sulfonic acid pyridiniujm, diphenyl phosphate, methyl butynol, 2,3- epoxy cyclopentyls The mass ratio of cyclopenta ether, benzylidene aniline, N, N '-dicyclohexylcarbodiimides are 0.005: 0.15: 1: 0.002: 0.2: 0.02: 1∶0.3∶0.05；The time that methyl butynol is added is 20 minutes.

4. composite material with high dielectric property according to claim 1, it is characterised in that：In step (3), -2 propyl alcohol of 2- methyl, Isomery undecyl alcohol polyoxyethylene ether, o-phthalic acid diglycidyl ester, polyetherimide mass ratio be 0.2: 0.1: 1: 0.09。

5. composite material with high dielectric property according to claim 1, it is characterised in that：It is high dielectric filler, double in step (4) Functional group's epoxy systems, simple function group epoxy systems, nano alumina particles mass ratio be 0.09: 0.4: 1: 0.01.

6. composite material with high dielectric property according to claim 1, it is characterised in that：In step (5), the high dielectric property In composite material, the mass fraction of reinforcing material is 30%；The reinforcing material is electronic-grade glass fiber cloth.

7. composite material with high dielectric property according to claim 1, it is characterised in that：In step (5), the heat drying is 130℃/30s+160℃/40s+190℃/30s。

8. composite material with high dielectric property according to claim 1, it is characterised in that：In step (5), solvent is propylene glycol first Ether acetate.