KR20190102984A - Sealing agent, liquid crystal display element, and hardened | cured material for liquid crystal display elements - Google Patents

Abstract

An object of this invention is to provide the sealing compound for liquid crystal display elements which can make it hard to produce a crack and a crack in a board | substrate even if it is a liquid crystal display element of a frame narrow design. Moreover, an object of this invention is to provide the vertical conduction material and liquid crystal display element which use this sealing compound for liquid crystal display elements. Moreover, an object of this invention is to provide the hardened | cured material formed by hardening the sealing compound for liquid crystal display elements.
This invention is a sealing compound for liquid crystal display elements containing curable resin, a polymerization initiator, and / or a thermosetting agent, and is a sealing compound for liquid crystal display elements whose pencil hardness of hardened | cured material based on JISK5600-5-4 is 3H or less.

Description

Sealing agent, liquid crystal display element, and hardened | cured material for liquid crystal display elements

This invention relates to the sealing compound for liquid crystal display elements which hardly produces a crack and a crack in a board | substrate even if it is a liquid crystal display element of a frame narrow design. Moreover, this invention relates to the vertical conduction material and liquid crystal display element which use this sealing compound for liquid crystal display elements. Moreover, this invention relates to the hardened | cured material formed by hardening the sealing compound for liquid crystal display elements.

In recent years, as a manufacturing method of liquid crystal display elements, such as a liquid crystal display cell, from curable resin, a photoinitiator, and heat | fever which are disclosed by patent document 1, patent document 2 from a viewpoint of shortening a tact time, optimization of use liquid crystal quantity, etc. The liquid crystal dropping method called the dropping method using the hardening type sealing compound for photothermal combinations containing a hardening | curing agent is used.

In the dropping method, first, a rectangular seal pattern is formed on one side of two substrates with electrodes by dispensing. Subsequently, the microdroplets of the liquid crystal are dropped into the seal frame of the substrate in a state where the sealing agent is uncured, the other substrate is superimposed under vacuum, and the seal portion is irradiated with light such as ultraviolet rays to temporarily cure. Thereafter, heating and main curing are performed to produce a liquid crystal display element. At present, this dropping method is the mainstream of the manufacturing method of a liquid crystal display element.

By the way, in the modern age in which various mobile apparatuses with liquid crystal panels, such as a mobile telephone and a portable game machine, are spreading, miniaturization of a device is the most demanded subject. As a method of miniaturization, frame narrowing of a liquid crystal display part is mentioned, For example, arrange | positioning the position of a seal part under a black matrix is performed (henceforth a frame narrow design).

Japanese Unexamined Patent Publication No. 2001-133794 Japanese Patent Laid-Open No. 5-295087

This invention relates to the sealing compound for liquid crystal display elements which hardly produces a crack and a crack in a board | substrate even if it is a liquid crystal display element of a frame narrow design. Moreover, an object of this invention is to provide the vertical conduction material and liquid crystal display element which use this sealing compound for liquid crystal display elements. Moreover, an object of this invention is to provide the hardened | cured material formed by hardening the sealing compound for liquid crystal display elements.

This invention is a sealing compound for liquid crystal display elements containing the curable resin, a polymerization initiator, and / or a thermosetting agent, and pencil hardness of hardened | cured material based on JISK5600-5-4 is 3H or less.

The present invention is described in detail below.

Usually, although a liquid crystal display element is manufactured by dividing a panel from mother glass, respectively, when manufacturing the liquid crystal display element of a frame narrow design in which the width of the frame part around the liquid crystal display part becomes 2 mm or less, In particular, in the step of dividing the panel, there is a problem that cracks and cracks are easily generated in the substrate. Fig.1 (a) is a schematic diagram which shows the dividing position of the panel in the conventional liquid crystal display element instead of frame narrow design, and Fig.1 (b) is the dividing position of the panel in the liquid crystal display element of frame narrow design. It is a schematic diagram showing. As shown in Fig. 1 (a), in a conventional liquid crystal display device having a non-frame narrow design, since there is a constant interval at the drawing point of the sealing agent between neighboring panels, the divided position of the panel is located on the cured product of the sealing agent. There was no case. On the other hand, as shown in FIG.1 (b), in the liquid crystal display element of a frame narrow design, the drawing point of the sealing compound of adjacent panels contacts, and the parting position of a panel becomes on the hardened | cured material of a sealing compound. MEANS TO SOLVE THE PROBLEM This inventor considered that the hardened | cured material of the sealing compound in the dividing position of a panel is too hard in the cause which a crack and a crack generate | occur | produce easily in a board | substrate when dividing a panel in the liquid crystal display element of frame narrow design. Then, as a result of earnestly examining, the present inventors found that by using the thing whose pencil hardness of hardened | cured material becomes 3H or less as a sealing compound, even if it is a liquid crystal display element of a frame narrow design, it can prevent that a board | substrate and a crack generate | occur | produce well, The present invention has been completed.

The pencil hardness of the hardened | cured material based on JISK5600-5-4 is 3H or less in the sealing compound for liquid crystal display elements of this invention. When the pencil hardness of the said hardened | cured material is 3H or less, even if it is a liquid crystal display element of a frame narrow design, it can prevent that a crack and a crack generate | occur | produce well in a board | substrate.

Moreover, it is preferable that the pencil hardness of the said hardened | cured material is 3B or more from a viewpoint of moisture permeability prevention etc ..

In addition, in this specification, the said pencil hardness means "hardness of 3H or less" means the hardness of pencil hardness to 3H, or it is softer than the hardness of 3H, and the said pencil hardness is "3B or more" of pencil It means that hardness becomes 3B or is harder than hardness used as 3B.

The hardened | cured material which measures the said pencil hardness can be obtained by heating at 100 degreeC for 1 hour, after irradiating the ultraviolet-ray (wavelength 365nm) of 100 kHz / cm <2> for 30 second to the sealing compound for liquid crystal display elements. Moreover, the hardened | cured material means the sealing compound hardened | cured material used for bonding and sealing of board | substrates etc. in a liquid crystal display element.

The sealing compound for liquid crystal display elements of this invention contains curable resin, a polymerization initiator, and / or a thermosetting agent.

In the sealing compound for liquid crystal display elements of this invention, as a method of making pencil hardness of hardened | cured material into 3H or less, the method of using the polymeric compound which has a flexible skeleton as said curable resin, and the polymer which has flexibility to a sealing compound, The method of mix | blending a flexible particle | grain, etc. are mentioned. Especially, the method of using the polymeric compound which has a flexible skeleton is preferable, and the method of using together the polymeric compound and flexible particle which have a flexible skeleton is more preferable.

As a polymeric compound which has the said flexible skeleton, the (meth) acryl compound which has a flexible skeleton, the epoxy compound which has a flexible skeleton, etc. are mentioned. It is preferable that the said curable resin contains the (meth) acryl compound which has the said flexible skeleton, and / or the epoxy compound which has the said flexible skeleton.

In addition, in this specification, said "(meth) acryl" means an acryl or methacryl, The said "(meth) acryl compound" means the compound which has a (meth) acryloyl group, and said "(meth) Acryloyl "means acryloyl or methacryloyl.

As a (meth) acryl compound which has the said flexible skeleton, a long-chain (meth) acryl compound, the (meth) acryl compound which has a rubber structure, a urethane modified (meth) acryl compound, etc. are mentioned, for example.

As said long chain (meth) acryl compound, an alkylene oxide modified (meth) acryl compound, a caprolactone modified (meth) acryl compound, etc. are mentioned, for example.

As what is marketed among the said long chain (meth) acryl compounds, the long chain (meth) acryl compound by Kyoeisha Chemical Co., Ltd., the long chain (meth) acryl compound by Nagase Chemtex, and Toa Synthetic Co., Ltd. make are available, for example. The long chain (meth) acryl compound of the, the long chain (meth) acryl compound of the Shin-Nakamura Chemical Industries company, the long chain (meth) acrylic compound of the Daicel Allnex company, etc. are mentioned.

As said long-chain (meth) acryl compound by the Kyoeisha Chemical Co., Ltd., an epoxy ester 40EM, 70PA, 200PA, 80FMA, 3002M, 3002A etc. are mentioned, for example.

As a long-chain (meth) acryl compound by the said Nagase Chemtex company, DA-911M, DA-920, DA-931, DM-811, DM-832, DM-851, etc. are mentioned, for example.

As a long-chain (meth) acryl compound of the said Toa synthesis company, M-327 etc. are mentioned, for example.

As a long-chain (meth) acryl compound by the said Shin-Nakamura Chemical Industries, Ltd., A-9300-1CL, A-GLY-9E, A-GLY-20E etc. are mentioned, for example.

As a long-chain (meth) acryl compound of the said Daicel Allnex company, EBECRYL 3708 etc. are mentioned, for example.

As a (meth) acryl compound which has the said rubber structure, (meth) acryl modified butadiene rubber, (meth) acryl modified isoprene rubber, etc. are mentioned, for example.

As what is marketed among the (meth) acryl compounds which have the said rubber structure, For example, the (meth) acryl compound which has the rubber structure of Nippon-Soda company, the (meth) acryl compound which has the rubber structure of Kuraray Corporation, etc. Can be mentioned.

As a (meth) acryl compound which has the rubber structure of the said Nippon Soda company make, NISSO-TE etc. are mentioned, for example.

As a (meth) acryl compound which has the rubber structure of the said Kuraresa company, UC-102, UC-203 etc. are mentioned, for example.

As said urethane modified (meth) acryl compound, aliphatic urethane (meth) acrylate, aromatic urethane (meth) acrylate, etc. are mentioned, for example.

As what is marketed among the said urethane modified (meth) acryl compounds, the urethane modified (meth) acryl compound by Daicel Allnex Co., Ltd., the urethane modified (meth) acryl compound by Arakawa Chemical Industries, Ltd., and nami are for example. The urethane modified (meth) acrylic compound etc. which are manufactured by the chemical industry are mentioned.

Examples of the urethane-modified (meth) acrylic compound manufactured by Daicel Allnex Co., Ltd. include EBECRYL 230, EBECRYL 4491, EBECRYL 210 and the like.

As said urethane modified (meth) acrylic compound by the Arakawa Chemical Industries, Ltd., 551B etc. are mentioned, for example.

Examples of the urethane-modified (meth) acrylic compound manufactured by the above-mentioned Negami Chemical Industries, Inc. include UN-350, UN-1255, and the like.

Especially, as a (meth) acryl compound which has the said flexible skeleton, a long-chain (meth) acryl compound is preferable at the point which can easily adjust the pencil hardness of hardened | cured material, and an alkylene oxide modified (meth) acryl compound is More preferably, alkylene oxide modified epoxy (meth) acrylate is more preferable, epoxy (meth) acrylate having a polypropylene glycol skeleton is particularly preferable, and acrylic acid adduct of tripropylene glycol diglycidyl ether is most preferred. desirable.

In addition, in this specification, said "(meth) acrylate" means an acrylate or a methacrylate, and said "epoxy (meth) acrylate" means that all the epoxy groups in an epoxy compound were made to react with (meth) acrylic acid. Represents a compound.

As an epoxy compound which has the said flexible skeleton, a long-chain epoxy compound, the epoxy compound which has a rubber structure, etc. are mentioned, for example.

As said long chain epoxy compound, an alkylene oxide modified epoxy resin, an alkylene modified epoxy, etc. are mentioned, for example.

As what is marketed among the said long-chain epoxy compounds, the long-chain epoxy compound by Kyoeisha Chemical Co., Ltd., the long-chain epoxy compound by DIC Corporation, the long-chain epoxy compound by Daicel Allnex Co., Sanwa The long chain epoxy compound by the synthetic chemical company, the long chain epoxy compound by the Shin-Nippon Chemical company, the long chain epoxy compound by the ADEKA company, the long chain epoxy compound by the Mitsubishi Chemical company, etc. are mentioned.

As a long-chain epoxy compound by the Kyoeisha Chemical Co., Ltd., Eporite 40E, 100E, 200E, 400E, 70P, 200P, 400P, 1500NP, 1600, 80MF, 100MF, 4000, 3002 etc. are mentioned, for example. .

As a long-chain epoxy compound by the said DIC company, EPICLON EXA-4816, EPICLON EXA-4850 etc. are mentioned, for example.

As a long chain epoxy compound by the said Daicel Allnex company, Celoxide 2081, epoxide GT-401, etc. are mentioned, for example.

As said long-chain epoxy compound by the said acid and the synthetic chemical company, a chemisaza series etc. are mentioned, for example.

As a long-chain epoxy compound by the said Shin-Nippon Chemical company, oxygen group, E-2000H, etc. are mentioned, for example.

As said long-chain epoxy compound by the said ADEKA company, ED-503, ED-503G, ED-506, EP-4000, EP-4005, EP-7001, etc. are mentioned, for example.

As said long-chain epoxy compound by the said Mitsubishi Chemical Corporation, YL-7410, YL-7175-500, YL-7175-1000, jER 871, jER 872, etc. are mentioned, for example.

As an epoxy compound which has the said rubber structure, butadiene modified epoxy resin, terminal carboxyl group-containing polybutadiene-acrylonitrile (CTBN) modified epoxy resin, an epoxy group containing acrylic rubber, etc. are mentioned, for example.

Moreover, as an epoxy compound which has another flexible skeleton among the epoxy compounds which have the said flexible skeleton, a urethane modified epoxy compound, a rubber particle dispersion | distribution epoxy compound, etc. are mentioned, for example.

As what is marketed among the epoxy compounds which have the said other flexible skeleton, For example, the epoxy compound which has the other flexible skeleton by ADEKA company, the epoxy compound which has the other flexible skeleton by Nippon Catalyst Co., Ltd., Asahi Kasei company The epoxy compound etc. which have the other flexible frame | skeleton of manufacture are mentioned.

As an epoxy compound which has the other flexible skeleton by the said ADEKA company, EPU-7N etc. are mentioned, for example.

As an epoxy compound which has the other flexible frame | skeleton manufactured by the said Nippon Catalyst Co., Ltd., the acriset BP series etc. are mentioned, for example.

As an epoxy compound which has the other flexible skeleton by the said Asahi Chemical Co., Ltd., AER9000 etc. are mentioned, for example.

As what is marketed among the (meth) acryl compound which has the said flexible skeleton, and the polymeric compound which has other flexible skeletons other than the epoxy compound which has the said flexible skeleton, For example, it has another flexible skeleton made by Tomoe Industries, Ltd. Polymerizable compound, polymerizable compound having other flexible skeleton made by Idemitsu Heungsan Co., Ltd. polymerizable compound having other flexible skeleton made by Kaneka Corporation, polymerizable compound having other flexible skeleton made by Toa Synthetic Fiber, manufactured by Soken Chemical Co., Ltd. The polymeric compound which has the other flexible skeleton of this, The polymeric compound which has the other flexible skeleton by Shin-Etsu Chemical Co., Ltd., etc. are mentioned.

As a polymeric compound which has the other flexible skeleton by the said Tomoe industry company, Ricon 130MA8 etc. are mentioned, for example.

As a polymeric compound which has the other flexible frame | skeleton of the said Idemitsu Heungsan company make, Polybd etc. are mentioned, for example.

As a polymeric compound which has the other flexible frame | skeleton manufactured by the said Kaneca company, Epion series etc. are mentioned, for example.

As a polymeric compound which has the other flexible frame | skeleton manufactured by the said Toa synthesis company, Arupon US-6000, a macromonomer series, etc. are mentioned, for example.

As a polymeric compound which has the other flexible skeleton by the said Soken Chemical Co., Ltd., the Akuto flo series etc. are mentioned, for example.

As a polymeric compound which has the other flexible skeleton by the said Shin-Etsu Chemical Co., Ltd., a modified silicone oil etc. are mentioned, for example.

The polymeric compound which has the said flexible skeleton may be used independently, and 2 or more types may be used in combination.

The minimum with preferable content of the polymeric compound which has the said flexible skeleton in 100 weight part of said curable resins is 20 weight part. When content of the polymeric compound which has the said flexible skeleton is this range, it becomes easy to make the pencil hardness of the hardened | cured material of the sealing compound for liquid crystal display elements obtained to be 3H or less. The minimum with more preferable content of the polymeric compound which has the said flexible skeleton is 30 weight part, and a more preferable minimum is 60 weight part.

Moreover, from a viewpoint of moisture permeability, etc., the preferable upper limit of content of the polymeric compound which has the said flexible skeleton in 100 weight part of said curable resins is 80 weight part.

It is preferable that the said curable resin contains other curable resins other than the polymeric compound which has the said flexible skeleton for the purpose of improving the adhesiveness of the sealing compound for liquid crystal display elements obtained, low liquid-crystal contamination property, etc. As said other curable resin, other epoxy compounds other than the epoxy compound which has the said flexible frame | skeleton, and other (meth) acrylic compound other than the (meth) acryl compound which has the said flexible frame | skeleton are used preferably.

Examples of the other epoxy compounds include bisphenol A type epoxy resins, bisphenol F type epoxy resins, bisphenol E type epoxy resins, bisphenol S type epoxy resins, 2,2'-diallyl bisphenol A type epoxy resins, and hydrogen. Addition bisphenol type epoxy resin, propylene oxide addition bisphenol A type epoxy resin, resorcinol type epoxy resin, biphenyl type epoxy resin, diphenyl ether type epoxy resin, dicyclopentadiene type epoxy resin, naphthalene type epoxy resin, phenol novolac Epoxy resin, orthocresol novolac epoxy resin, dicyclopentadiene novolac epoxy resin, biphenyl novolac epoxy resin, naphthalenephenol novolac epoxy resin, glycidylamine epoxy resin, alkyl polyol epoxy Resins, glycidyl ester compounds, and the like.

Moreover, the said curable resin may contain the compound which has an epoxy group and a (meth) acryloyl group in 1 molecule as said other epoxy compound. As such a compound, the partial (meth) acryl modified epoxy resin etc. which are obtained by reacting the epoxy group of a part of the epoxy compound which has two or more epoxy groups in one molecule, and does not have a flexible skeleton, with (meth) acrylic acid are mentioned, for example. Can be.

As said other (meth) acryl compound, it has an epoxy (meth) acrylate, (meth) acrylic acid, and a hydroxyl group obtained by reacting (meth) acrylic acid and the epoxy compound which does not have a flexible skeleton, for example, and does not have a flexible skeleton. The (meth) acrylic acid ester compound etc. which are obtained by making a compound which does not react are mentioned. Especially, epoxy (meth) acrylate is preferable. Moreover, since the said other (meth) acryl compound is high in reactivity, it is preferable to have 2 or more (meth) acryloyl groups in a molecule | numerator.

As epoxy (meth) acrylate which is said other (meth) acryl compound, what is obtained by reacting the epoxy compound which does not have a flexible skeleton, and (meth) acrylic acid in presence of a basic catalyst in accordance with a conventional method, for example. Etc. can be mentioned.

As an epoxy compound which does not have the flexible skeleton used as a raw material for synthesize | combining the said epoxy (meth) acrylate, the thing similar to the other epoxy compound mentioned above is mentioned.

Said other curable resin may be used independently, and 2 or more types may be used in combination.

As a polymer which has the said flexibility, a (meth) acryl polymer etc. are mentioned, for example.

As what is marketed among the polymers with the said flexibility, Arupon UG-4000 (made by Toa synthesis company) etc. are mentioned, for example.

The said flexible polymer may be used independently and may be used in combination of 2 or more type.

The minimum with preferable content of the said polymer which has the said flexibility in all 100 weight part of sealing compounds for liquid crystal display elements of this invention is 5 weight part. When content of the polymer which has the said flexibility is this range, it becomes easy to make pencil hardness of the hardened | cured material of the sealing compound for liquid crystal display elements obtained to be 3H or less. The minimum with more preferable content of the polymer which has the said flexibility is 10 weight part.

As said flexible particle | grain, a rubber particle, a urethane particle, etc. are mentioned, for example.

Moreover, the said flexible particle may have a core cell structure.

As said rubber particle, acrylic rubber particle, butadiene rubber particle, isoprene rubber particle, nitrile rubber particle, silicone rubber particle, sulfide type rubber particle, fluorine rubber particle, etc. are mentioned, for example.

As what is marketed among the said rubber particles, the rubber particle of the Kaneca company, the rubber particle of the Nippon Xeon company, the rubber particle of the Aika industry company, the rubber particle of Toray Finechem Co., etc. are mentioned, for example. .

Examples of the Kaneka Co., Ltd. rubber particles include Kaneace B series, Kaneace FM series, and the like.

As a rubber particle of the said Nippon Xeon company, Nipol series etc. are mentioned, for example.

As rubber particle | grains of the said Aika industrial company, Zepia F351 etc. are mentioned, for example.

As said rubber particle of the Toray Finechem Co., Ltd., thiocol LP-282 etc. are mentioned, for example.

As what is marketed among the said urethane particles, the urethane particle by Negami Chemical Co., Ltd., the urethane particle by Dai-ichi Purification Co., Ltd., etc. are mentioned, for example.

As urethane particle by the said Negami Chemical Co., Ltd., an art pearl etc. are mentioned, for example. Examples of the urethane particles produced by Daiichi Purification Industrial Co., Ltd. include dimix beads.

The said flexible particle | grains may be used independently and 2 or more types may be used in combination.

The minimum with preferable content of the said flexible particle in 100 weight part of sealing compounds for liquid crystal display elements of this invention is 20 weight part. When content of the said flexible particle | grain is this range, it becomes easy to make the pencil hardness of the hardened | cured material of the sealing compound for liquid crystal display elements obtained to be 3H or less. The minimum with more preferable content of the said flexible particle | grain is 30 weight part.

Moreover, when using the polymeric compound which has the said flexible frame | skeleton, and the said flexible particle together, the preferable minimum is 10 weight part with respect to 100 weight part of said curable resins. When content of the said flexible particle | grain is this range, it becomes easy to make the pencil hardness of the hardened | cured material of the sealing compound for liquid crystal display elements obtained to be 3H or less. The minimum with more preferable content of the said flexible particle at the time of using together the polymeric compound which has the said flexible skeleton and the said flexible particle | grain is 15 weight part.

The sealing compound for liquid crystal display elements of this invention contains a polymerization initiator and / or a thermosetting agent.

It is preferable that the sealing compound for liquid crystal display elements of this invention contains a radical photopolymerization initiator and a thermosetting agent.

As said radical photopolymerization initiator, a benzophenone type compound, an acetophenone type compound, an acyl phosphine oxide type compound, a titanocene type compound, an oxime ester type compound, a benzoin ether type compound, a thioxanthone etc. are mentioned, for example. Can be.

As what is marketed among the said radical photopolymerization initiators, the radical photopolymerization initiator by BASF Corporation, the radical photopolymerization initiator by Tokyo Chemical Industries, Ltd., etc. are mentioned, for example.

As said radical radical polymerization initiator by BASF Corporation, IRGACURE 184, IRGACURE 369, IRGACURE 379, IRGACURE 651, IRGACURE 819, IRGACURE 907, IRGACURE 2959, IRGACURE OXE01, Lucirin TPO, etc. are mentioned, for example.

As said radical photopolymerization initiator by the Tokyo Chemical Industries, Ltd., benzoin methyl ether, benzoin ethyl ether, benzoin isopropyl ether, etc. are mentioned, for example.

The sealing compound for liquid crystal display elements of this invention may use a thermal radical polymerization initiator as said polymerization initiator.

As said thermal radical polymerization initiator, what consists of an azo compound, an organic peroxide, etc. are mentioned, for example. Especially, the polymeric azo initiator which consists of a polymeric azo compound is preferable.

In addition, in this specification, a polymeric azo compound means the compound which has an azo group and produces | generates the radical which can harden | cure a (meth) acryloyloxy group by heat, and the number average molecular weight is 300 or more.

The minimum with preferable number average molecular weight of the said polymeric azo compound is 1000, and a preferable upper limit is 300,000. When the number average molecular weight of the said polymeric azo compound is this range, it can mix easily with curable resin, preventing the bad influence on a liquid crystal. The minimum with more preferable number average molecular weight of the said polymeric azo compound is 5000, and a more preferable upper limit is 100,000, A further preferable minimum is 10,000, and a more preferable upper limit is 90,000.

In addition, in this specification, the said number average molecular weight is a value measured by tetrahydrofuran as a solvent by gel permeation chromatography (GPC), and calculated | required by polystyrene conversion. As a column at the time of measuring the number average molecular weight by polystyrene conversion by GPC, Shodex LF-804 (made by Showa Denko) etc. is mentioned, for example.

As said polymeric azo compound, what has a structure in which two units, such as a polyalkylene oxide and polydimethylsiloxane, couple | bonded through the azo group is mentioned, for example.

It is preferable to have a polyethylene oxide structure as a polymeric azo compound which has a structure by which two units, such as a polyalkylene oxide, were couple | bonded through the said azo group.

Specific examples of the polymer azo compound include polycondensates of 4,4'-azobis (4-cyanopentanoic acid) and polyalkylene glycols, and 4,4'-azobis (4-cyanophene). And polycondensates of polydimethylsiloxanes having carbonic acid) and terminal amino groups.

As what is marketed among the said polymeric azo compounds, VPE-0201, VPE-0401, VPE-0601, VPS-0501, VPS-1001 (all are the Wako Pure Chemical Industries Ltd.) etc. are mentioned, for example.

Moreover, as what is marketed as an azo compound which is not a polymer, V-65, V-501 (both manufactured by Wako Pure Chemical Industries Ltd.) etc. are mentioned, for example.

As said organic peroxide, ketone peroxide, peroxy ketal, hydroperoxide, dialkyl peroxide, peroxy ester, diacyl peroxide, peroxy dicarbonate, etc. are mentioned, for example.

The said polymerization initiator may be used independently and 2 or more types may be used in combination.

As for content of the said polymerization initiator, a preferable minimum is 0.1 weight part and a preferable upper limit is 30 weight part with respect to 100 weight part of said curable resins. When content of the said polymerization initiator is 0.1 weight part or more, the sealing compound for liquid crystal display elements obtained becomes more excellent in sclerosis | hardenability. When content of the said polymerization initiator is 30 weight part or less, the sealing compound for liquid crystal display elements obtained becomes more excellent in storage stability. The minimum with more preferable content of the said polymerization initiator is 1 weight part, a more preferable upper limit is 10 weight part, and a still more preferable upper limit is 5 weight part.

As said thermosetting agent, an imidazole series thermosetting agent is preferable.

As said imidazole series thermal curing agent, for example, 2-methylimidazole, 2-ethyl-4-methylimidazole, 1-cyanoethyl-2-phenylimidazole, 1-cyanoethyl- 2-phenylimidazolium trimellitate, 2,4-diamino-6- (2'-methylimidazolyl- (1 '))-ethyl-s-triazine, 2,4-diamino-6- (2'-methylimidazolyl- (1 '))-ethyl-s-triazine isocyanuric acid addition product etc. are mentioned.

Moreover, you may use an adduct-type hardening | curing agent as said imidazole series thermosetting agent. By using the said adduct type hardening | curing agent, excessive thickening of a sealing compound can be suppressed.

As an adduct-type hardening | curing agent, the adduct body obtained by reaction, such as an imidazole compound and an epoxy compound, is mentioned, for example.

As what is marketed among the said adduct-type hardening | curing agents, For example, the adduct type hardening agent by Ajinomoto Fine Techno Co., Ltd. adduct type hardening agent by Shikoku Chemical Co., Ltd., the adduct type hardening agent by Mitsubishi Chemical Corporation, etc. Can be mentioned.

As an adduct type hardening | curing agent manufactured by the said Ajinomoto fine techno company, For example, amcure PN-23, amcure PN-23J, amcure PN-H, amcure PN-31, amcure PN-31J, ami Cure PN-40, Amcure PN-40J, Amcure PN-50, Amcure PN-F, Amcure MY-24, Amcure MY-H, etc. are mentioned.

As an adduct-type hardener of the said Shikoku Chemical Co., Ltd., P-0505 etc. are mentioned, for example.

As an adduct-type hardener of the said Mitsubishi Chemical Corporation, P-200 etc. are mentioned, for example.

As said thermosetting agent, you may use other thermosetting agents other than the said imidazole series thermosetting agent.

As said other thermosetting agent, an organic acid hydrazide, an amine compound, a polyhydric phenol type compound, an acid anhydride, etc. are mentioned, for example. Especially, organic acid hydrazide is used preferably.

Examples of the organic acid hydrazide include sebacic acid hydrazide, isophthalic acid dihydrazide, adipic acid dihydrazide, malonic acid dihydrazide, and the like.

As what is marketed among the said organic acid hydrazide, the organic acid hydrazide by Otsuka Chemical Co., Ltd., the organic acid hydrazide by Ajinomoto Fine Techno Co., etc. are mentioned, for example.

As organic acid hydrazide by the said Otsuka Chemical company, SDH, ADH, etc. are mentioned, for example.

Examples of the organic acid hydrazide manufactured by Ajinomoto Fine Techno Co., Ltd. include amcure VDH, amcure VDH-J, amcure UDH, amcure UDH-J and the like.

The said thermosetting agent may be used independently and 2 or more types may be used in combination.

As for content of the said thermosetting agent, a preferable minimum is 1 weight part and a preferable upper limit is 50 weight part with respect to 100 weight part of said curable resins. When content of the said thermosetting agent is this range, it can be made more excellent thermosetting, without degrading the coating property etc. of the sealing compound for liquid crystal display elements obtained. The upper limit with more preferable content of the said thermosetting agent is 30 weight part.

It is preferable that the sealing compound for liquid crystal display elements of this invention contains an inorganic filler for the purpose of the improvement of a viscosity, the further adhesiveness by a stress dispersion effect, the improvement of a linear expansion rate, the moisture resistance of hardened | cured material, etc.

Examples of the inorganic filler include silica, talc, glass beads, asbestos, gypsum, diatomaceous earth, smectite, bentonite, montmorillonite, sericite, activated clay, alumina, zinc oxide, iron oxide, magnesium oxide, tin oxide and titanium oxide. , Calcium carbonate, magnesium carbonate, magnesium hydroxide, aluminum hydroxide, aluminum nitride, silicon nitride, barium sulfate, calcium silicate and the like.

The minimum with preferable content of the said inorganic filler is 15 weight part with respect to 100 weight part of said curable resins. When content of the said inorganic filler is 15 weight part or more, it becomes the thing excellent in the heat shock resistance at the time of repeated environmental changes of low temperature and high temperature. The minimum with more preferable content of the said inorganic filler is 25 weight part.

Moreover, from a viewpoint of applicability | paintability, content of the said inorganic filler is 60 weight part with a preferable upper limit with respect to 100 weight part of said curable resins.

It is preferable that the sealing compound for liquid crystal display elements of this invention contains an ion trapping agent.

The said ion trapping agent has a role which suppresses generation | occurrence | production of liquid crystal contamination by capturing the water-soluble ion in the said sealing compound for liquid crystal display elements.

Examples of the ion trapping agent include a cation trapping agent for trapping cations, anion trapping agent for trapping anions, and both ion trapping agents for trapping cations and anions, and are more excellent in suppressing the occurrence of liquid crystal contamination. From the viewpoint, the cation trapping agent, that is, the cation trapping agent and both ion trapping agent is preferable, and the cation trapping agent is more preferable.

Examples of the ion trapping agent include zirconium compounds, antimony compounds, bismuth compounds, magnesium compounds, aluminum compounds, and the like. Especially, the zirconium compound and antimony compound which have a cation replenishment effect are preferable at the point which is more excellent in the effect which suppresses generation | occurrence | production of liquid crystal contamination, and a zirconium compound is more preferable.

As what is marketed among the said zirconium type compounds, IXE-100 (made by the Toa synthesis company) etc. is mentioned, for example.

As what is marketed among the said antimony compounds, the antimony compound of Wako Pure Chemical Industries Ltd., the antimony compound of Toa synthesis company, etc. are mentioned, for example.

Examples of the antimony compound manufactured by Wako Pure Chemical Industries, Ltd. include antimony pentoxide and the like.

As an antimony compound of the said Toa synthesis company, IXE-300, IXE-600, IXE-633 etc. are mentioned, for example.

As what is marketed among the said bismuth type compounds, IXE-500, IXE-530, IXE-550 (all are the Toa synthesis company make), etc. are mentioned, for example.

As what is marketed among the said magnesium type compounds, IXE-700F (made by the Toa synthesis company) etc. is mentioned, for example.

The said ion trapping agent may be used independently and 2 or more types may be used in combination.

The minimum with preferable content of the said ion trapping agent in 100 weight part of sealing compounds for liquid crystal display elements of this invention is 2 weight part, and a preferable upper limit is 30 weight part. When content of the said ion trapping agent is this range, the effect which suppresses generation | occurrence | production of liquid crystal contamination is more excellent, without degrading applicability | paintability etc .. The minimum with more preferable content of the said ion trapping agent is 5 weight part, and a more preferable upper limit is 20 weight part.

It is preferable that the sealing compound for liquid crystal display elements of this invention contains a silane coupling agent for the purpose of further improving adhesiveness. The said silane coupling agent mainly has a role as an adhesion | attachment adjuvant for adhere | attaching a sealing compound, a board | substrate, etc. favorably.

As said silane coupling agent, 3-aminopropyl trimethoxysilane, 3-mercaptopropyl trimethoxysilane, 3-glycidoxy propyl trimethoxysilane, etc. are used preferably, for example.

The said silane coupling agents may be used independently and 2 or more types may be used in combination.

The minimum with preferable content of the said silane coupling agent in 100 weight part of sealing compounds for liquid crystal display elements of this invention is 0.1 weight part, and a preferable upper limit is 20 weight part. When content of the said silane coupling agent is this range, the effect which improves adhesiveness can be exhibited more, suppressing generation | occurrence | production of liquid crystal contamination. The minimum with more preferable content of the said silane coupling agent is 0.5 weight part, and a more preferable upper limit is 10 weight part.

The sealing compound for liquid crystal display elements of this invention may contain the light-shielding agent. By containing the said light-shielding agent, the sealing compound for liquid crystal display elements of this invention can be used suitably as a light-shielding sealing compound.

As said light-shielding agent, iron oxide, titanium black, aniline black, cyanine black, fullerene, carbon black, resin coating carbon black, etc. are mentioned, for example. Especially, titanium black is preferable.

The said titanium black is a substance with which the transmittance | permeability with respect to the light of wavelength 370 nm-450 nm is high compared with the average transmittance with respect to the light of wavelength 300 nm or more and 800 nm or less. That is, the said titanium black is a light shielding agent which has the property to provide the light shielding property to the sealing compound for liquid crystal display elements of this invention by shielding the light of the wavelength of visible region sufficiently, and to transmit the light of the wavelength vicinity of an ultraviolet region. . As a light-shielding agent contained in the sealing compound for liquid crystal display elements of this invention, a substance with high insulation is preferable, and titanium black is also preferable as a light-shielding agent with high insulation.

Although the said titanium black exhibits sufficient effect even if it is not surface-treated, the surface is treated with organic components, such as a coupling agent, silicon oxide, titanium oxide, germanium oxide, aluminum oxide, zirconium oxide, magnesium oxide, etc. Surface-treated titanium black, such as coat | covered with the inorganic component of, can also be used. Especially, what is processed by the organic component is preferable at the point which can improve insulation more.

Moreover, since the liquid crystal display element manufactured using the sealing compound for liquid crystal display elements of this invention containing the said titanium black as a light shielding agent has sufficient light shielding property, light does not leak and has high contrast, and excellent image display A liquid crystal display element having quality can be realized.

As what is marketed among the said titanium black, the titanium black by the Mitsubishi material company, the titanium black by the Ako Kasei company etc. are mentioned, for example.

As titanium black manufactured by the said Mitsubishi Material Corporation, 12S, 13M, 13M-C, 13R-N, 14M-C etc. are mentioned, for example.

Examples of the titanium black manufactured by Akko Chemical Co., Ltd. include T-irac D and the like.

The minimum with a preferable specific surface area of the said titanium black is 13 m <2> / g, a preferable upper limit is 30 m <2> / g, a more preferable minimum is 15 m <2> / g, and a more preferable upper limit is 25 m <2> / g.

Moreover, the minimum with preferable volume resistance of the said titanium black is 0.5 ohm * cm, a preferable upper limit is 3 ohm * cm, a more preferable minimum is 1 ohm * cm, and a more preferable upper limit is 2.5 ohm * cm.

Although the primary particle diameter of the said light-shielding agent will not be specifically limited if it is below the distance between the board | substrates of a liquid crystal display element, A preferable minimum is 1 nm and a preferable upper limit is 5 micrometers. When the primary particle diameter of the said light-shielding agent is this range, the viscosity and thixotropy of the sealing compound for liquid crystal display elements obtained do not increase significantly, and it becomes a thing excellent in applicability | paintability. The minimum with more preferable primary particle diameter of the said light-shielding agent is 5 nm, a more preferable upper limit is 200 nm, a more preferable minimum is 10 nm, and a more preferable upper limit is 100 nm.

In addition, the primary particle diameter of the said light-shielding agent can be measured using a particle size distribution meter (for example, "NICOMP 380ZLS" by PARTICLE SIZING SYSTEMS company).

The minimum with preferable content of the said light-shielding agent in 100 weight part of sealing compounds for liquid crystal display elements of this invention is 5 weight part, and a preferable upper limit is 80 weight part. When content of the said light-shielding agent is this range, the effect of improving light-shielding property can be exhibited more without reducing the adhesiveness of the sealing compound for liquid crystal display elements obtained, the intensity | strength after hardening, and drawing property significantly. The minimum with more preferable content of the said light-shielding agent is 10 weight part, a more preferable upper limit is 70 weight part, More preferably, a minimum is 30 weight part, and a more preferable upper limit is 60 weight part.

The sealing compound for liquid crystal display elements of this invention may further contain additives, such as a stress relaxation agent, a reactive diluent, a thixotropic agent, a spacer, a hardening accelerator, an antifoamer, a leveling agent, and a polymerization inhibitor.

As a method of manufacturing the sealing compound for liquid crystal display elements of this invention, it uses, for example, a mixer, such as a homo disper, a homo mixer, a universal mixer, a planetary mixer, a kneader, and three bone rolls, And a method of mixing a polymerization initiator and / or a thermosetting agent with an inorganic filler.

A vertical conduction material can be manufactured by mix | blending electroconductive fine particles with the sealing compound for liquid crystal display elements of this invention. The vertical conduction material containing such a sealing compound for liquid crystal display elements and electroconductive fine particles of this invention is also one of this invention.

As the conductive fine particles, a metal ball, a conductive metal layer formed on the surface of the resin fine particles, or the like can be used. Especially, it is preferable that the conductive metal layer is formed on the surface of the resin fine particles because of the excellent elasticity of the resin fine particles, the conductive connection can be performed without damaging the transparent substrate or the like.

The liquid crystal display element which uses the sealing compound for liquid crystal display elements of this invention, or the vertical conduction material of this invention is also one of this invention.

As a liquid crystal display element of this invention, the liquid crystal display element of a frame narrow design is preferable. Specifically, the width of the frame portion around the liquid crystal display is preferably 2 mm or less.

Moreover, it is preferable that the application | coating width of the sealing compound for liquid crystal display elements of this invention at the time of manufacturing the liquid crystal display element of this invention is 1 mm or less.

The sealing compound for liquid crystal display elements of this invention can be used suitably for manufacture of the liquid crystal display element by a liquid crystal dropping method.

As a method of manufacturing the liquid crystal display element of this invention by the liquid crystal dropping method, the following method etc. are mentioned, for example.

First, the process of forming a rectangular sealing pattern by screen printing, dispenser application | coating, etc. with the sealing compound for liquid crystal display elements of this invention, etc. to a board | substrate is performed. Subsequently, the sealing compound for liquid crystal display elements of this invention etc. apply | coats the droplets of a liquid crystal dropwise to the whole surface of the frame of a transparent substrate in uncured state, and the process of immediately superimposing another substrate is performed. Then, the method of irradiating light, such as an ultraviolet-ray, to the sealing pattern parts, such as the sealing compound for liquid crystal display elements of this invention, and temporarily hardening a sealing compound, and the method of performing the process of heating and temporarily hardening the sealing compound which temporarily hardened. By this, a liquid crystal display element can be obtained.

JIS K 5600-5 as a hardened | cured material formed by hardening the sealing compound for liquid crystal display elements of this invention, ie, a hardened | cured material formed by hardening the sealing compound for liquid crystal display elements containing curable resin, a polymerization initiator, and / or a thermosetting agent. The hardened | cured material whose pencil hardness based on -4 is 3H or less is also one of this invention.

According to this invention, even if it is a liquid crystal display element of a frame narrow design, the sealing compound for liquid crystal display elements which does not generate | occur | produce a crack and a crack well in a board | substrate can be provided. Moreover, according to this invention, the vertical conduction material and liquid crystal display element which use this sealing compound for liquid crystal display elements can be provided. Moreover, according to this invention, the hardened | cured material formed by hardening the sealing compound for liquid crystal display elements can be provided.

FIG. 1: (a) is a schematic diagram which shows the dividing position of the panel in the conventional liquid crystal display element which is not a frame narrow design, and FIG. 1 (b) is a liquid crystal display element of a frame narrow design. It is a schematic diagram which shows the dividing position of a panel.

Although an Example is given to the following and this invention is demonstrated in more detail, this invention is not limited only to these Examples.

(Examples 1-5, and Comparative Examples 1 and 2)

After mixing each material of the compounding ratio of Table 1 using a planetary type stirrer (Shiki Co., Ltd. make, "Awatorrentaroro"), and further using 3 bone rolls, Examples 1-5, and And the sealing compound for liquid crystal display elements of Comparative Examples 1 and 2 were prepared. Moreover, the liquid crystal display element was manufactured using the sealing compound for liquid crystal display elements obtained by the Example and the comparative example.

About the obtained sealing compound for liquid crystal display elements, after irradiating 100 kHz / cm <2> ultraviolet-rays (365 nm of wavelength) for 30 second using a metal halide lamp, about the hardened | cured material which heated and hardened at 120 degreeC for 1 hour, JIS K Pencil hardness was measured based on 5600-5-4. The results are shown in Table 1.

<Evaluation>

The following evaluation was performed about the sealing compound for liquid crystal display elements obtained by the Example and the comparative example. The results are shown in Table 1.

(Partition Stability of Panel)

1 part by weight of fine particles of spacer (Sekisui Chemical Co., Ltd., "Micro Pearl SI-H050") was dispersed in 100 parts by weight of the sealing compound for liquid crystal display elements obtained in the Examples and Comparative Examples, and the alignment film and the two pieces of rubbing were completed. One side of the substrate with electrodes was coated with a dispenser so that the line width of the sealing agent was 0.8 mm.

Subsequently, the microdroplets of the liquid crystal (Tosoh Co., Ltd., "JC-5004LA") were applied dropwise onto the entire surface of the sealing compound of the substrate with a transparent electrode, and immediately bonded with the other transparent electrode. It was combined. At this time, the pattern was produced on the board | substrate so that drawing points of the sealing compound adjacent to each other might contact as shown in FIG.1 (b). After irradiating 100 ㎽ / ㎠ ultraviolet ray for 30 seconds using a metal halide lamp on the sealant part, it is heated at 120 ° C for 1 hour to cure the sealant, and a scriber is used so that the cured product of the sealant is at the divided position. The sheath was cut and cut, and 100 liquid crystal display elements in total were manufactured.

When the board | substrate which divided each liquid crystal display element was confirmed, and a crack and a crack were not confirmed by the board | substrate in all the liquid crystal display elements, it is a crack and a crack in a board | substrate in "(circle)", 1 or more and less than 5 liquid crystal display elements The case where this confirmed was "(triangle | delta)" and the case where a crack and a crack were confirmed in the board | substrate in five or more liquid crystal display elements was made into "x", and the division stability of the panel was evaluated.

(Heat shock resistance)

About 60 liquid crystal display elements obtained by said "(dividing stability of panel)", after holding at -30 degreeC using a cold-heat cycle tester, it heated up to 85 degreeC, and after holding at 85 degreeC, it dropped to -30 degreeC The process of making it into 1 cycle and performing 1000 cycles of this was carried out the cold cycle test.

After the test, when the liquid crystal leakage was not confirmed in all liquid crystal display elements, the case where liquid crystal leakage was confirmed in one or two liquid crystal display elements was indicated by "○", three or four liquid crystal display elements. In the case where liquid crystal leakage was confirmed in "Δ", when the liquid crystal leakage was confirmed in five or more liquid crystal display elements as "x", heat shock resistance was evaluated.

According to this invention, even if it is a liquid crystal display element of a frame narrow design, the sealing compound for liquid crystal display elements which does not generate | occur | produce a crack and a crack well in a board | substrate can be provided. Moreover, according to this invention, the vertical conduction material and liquid crystal display element which use this sealing compound for liquid crystal display elements can be provided. Moreover, according to this invention, the hardened | cured material formed by hardening the sealing compound for liquid crystal display elements can be provided.

1: mother glass
2: hardened | cured material of sealing compound
3: the position of division of the panel

Claims (7)

As a sealing compound for liquid crystal display elements containing curable resin, a polymerization initiator, and / or a thermosetting agent, the pencil hardness of the hardened | cured material based on JISK5600-5-4 is 3H or less, The sealing compound for liquid crystal display elements characterized by the above-mentioned. The method of claim 1,
The said curable resin is the sealing compound for liquid crystal display elements containing the (meth) acryl compound which has a flexible skeleton, and / or the epoxy compound which has a flexible skeleton. The method according to claim 1 or 2,
The sealing compound for liquid crystal display elements containing an optical radical polymerization initiator and a thermosetting agent. The method according to claim 1, 2 or 3,
The sealing compound for liquid crystal display elements containing an inorganic filler and containing 15 weight part or more and 60 weight part or less with respect to 100 weight part of said curable resins. The vertical conduction material containing the sealing compound for liquid crystal display elements of Claim 1, 2, 3, or 4, and electroconductive fine particles. The liquid crystal display element which uses the sealing compound for liquid crystal display elements of Claim 1, 2, 3, or 4, or the vertical conduction material of Claim 5. Hardened | cured material formed by hardening | curing the sealing compound for liquid crystal display elements containing curable resin, a polymerization initiator, and / or a thermosetting agent, The hardened | cured material characterized by the pencil hardness based on JISK5600-5-4 being 3H or less.

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