CN107236502A - A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof - Google Patents

Abstract

A kind of low cost of the present invention, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof.The low cost, fast solidification, the Stone back mesh glue of high intensity include A glue and its B glue used cooperatively, and wherein A glue is prepared from the following raw materials in parts by weight：35 65 parts of epoxy resin SM618,15 35 parts of epoxy resin SM6101,36 parts of cardanol glycidyl ether, 25 parts of neopentylglycol diglycidyl ether, 50 100 parts of calcite, 58 parts of polyadipate acid anhydride, 0.8 1.5 parts of positive tetraisopropyl titanate；B glue is prepared from the following raw materials in parts by weight.

Description

A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof

Technical field

The present invention relates to Stone back mesh glue, more particularly to a kind of low cost, fast solidification, the Stone back mesh glue of high intensity and its Preparation method.

Background technology

Natural ornamental stone is widely used to the interior/exterior decoration of building, but high-grade natural stone resource is limited, And it is non-renewable, price is increasingly expensive, and ornamental stone is gradually to slim development.

Natural ornamental stone thin plate is in production and processing, transport, installation process, and because lithotome is rigidly big, bending resistance is strong Degree is low, and slim back face of stone is pasted the enhanced technical measures of screen cloth and arisen at the historic moment.

It is exactly the back side that fiberglass gridding cloth is spread in stone plate to carry on the back network technology, then with back mesh glue by glass fibre Grid cloth is pasted with stone plate, and stone plate and fiberglass gridding one entirety of formation, make the strong of stone plate after back mesh glue solidification Degree is improved, and greatly reduces the production accident caused in process due to the rupture of plate face and transportation In stone material spoilage.

Stone back mesh glue mainly has three classes at present：A kind of is aqueous adhesive and cement, the compound of filler, this material Intensity difference, ageing-resistant performance is unstable；One kind is solvent-borne type unsaturated polyester (UP) adhesive, and toxicity is big, is unfavorable for environmental protection, and adhesion Power is poor, and intensity is relatively low；Also a kind of is also epoxy Stone back mesh glue with the most use at present, and this adhesive intensity is high, resistance to old Change better performances, but cure shrinkage is big, and the adhesion strength with cement mortar is not ideal enough, and itself is partially crisp, and cost is higher, still needs to Improved.

The content of the invention

It is an object of the invention to provide a kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, Big to solve existing epoxy Stone back mesh glue cure shrinkage, the adhesion strength with cement mortar is not ideal enough, and itself is partially crisp, into This technical problem such as higher.

In order to solve the above technical problems, the technical solution adopted by the present invention is：

A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is characterised in that：This is inexpensive, fast solid Change, the Stone back mesh glue of high intensity includes A glue and its B glue used cooperatively, wherein wherein A glue by following parts by weight raw material It is made：35-65 parts of epoxy resin SM618,15-35 parts of epoxy resin SM6101,3-6 parts of cardanol glycidyl ether, new penta 2-5 parts of Hexanediol diglycidyl ether, 50-100 parts of calcite, 5-8 parts of polyadipate acid anhydride, positive tetraisopropyl titanate 0.8-1.5 parts； B glue is prepared from the following raw materials in parts by weight；10-50 parts of polyamide curing agent, modified fatty amine curing agent or modified aliphatic cyclic amine 4-20 parts of curing agent, 10-50 parts of calcite.

Further, described SM618 is standard Bisphenol-A epoxy resin, and epoxide number is 0.48-0.54；SM6101 is not Crystal type epoxy resin, epoxide number is 0.41-0.47.Epoxy resin SM6101 bonding

Intensity is higher than epoxy resin SM618, but its viscosity is more than epoxy resin SM618, and winter is not easy to construction, using two kinds Epoxy resin is used with, and viscosity B coefficent is made while can improving adhesion strength less, can also reduce epoxy resin SM618 crystallizations Possibility.

Further, described cardanol glycidyl ether pliability is good, assigns flexible epoxy resin, elongation and raising Impact strength, is both the plasticized modifier of epoxy resin, is good diluent again；Described neopentylglycol diglycidyl ether For difunctional diluent, the shear strength and bending strength of solidfied material can be improved by participating in curing reaction.

Further, described calcite has six side surface body structures, and surface has preferable imbibition characteristic, it is not easy to Settle.

Further, described polyamide curing agent produces for Hubei Green Homeland Material Technology Co., Ltd, is What 35 parts of Ergol leftover bits and pieces, dimeric dibasic acid or the reaction of 160-180 DEG C of triethylene tetramine of 35 parts and 30 parts of trimer acid were obtained.

Further, described modified fatty amine is diethylenetriamine, triethylene tetramine, TEPA, five ethene six One or more of mixtures in amine, polyethylene polyamine are made through bisphenol A modified, modified aliphatic cyclic amine be 1,3- cyclohexyl diamines, One or more of mixtures in N- aminoethyl piperazines, m-phenylene diamine (MPD), m-xylene diamine, IPD change through bisphenol-A Property be made.

Further, a kind of described low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is special Levy and be：Comprise the following steps that：

（1）The preparation of A glue：35-65 parts of epoxy resin SM618,15-35 parts of epoxy resin SM6101, waist are sequentially added first 2-5 parts of 3-6 parts of fruit phenol glycidol ether and neopentylglycol diglycidyl ether are stirred into the vacuum planetary mixer that can be heated 10-15min is mixed, 50-100 parts of calcite, 5-8 parts of polyadipate acid anhydride and positive tetraisopropyl titanate 0.8-1.5 is then sequentially added Part stirring 25-35min, wherein reaction temperature are 55-60 DEG C, and vacuum is 0.075-0.095 MPas, and mixing speed is 500- 800 revs/min, finally discharge to obtain A glue；

（2）The preparation of B glue：4-20 parts of fatty amine curing agent or alicyclic ring amine hardener and bisphenol-A are added in reactor first, control 55-60 DEG C of reaction temperature processed, stirs 30min, then sequentially adds 10-50 parts of 10-50 parts of polyamide curing agent and calcite In reactor, 55-60 DEG C of controlling reaction temperature stirs 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 7-2:1 well mixed can be made into the Stone back mesh glue.

The present invention has the advantages that compared with prior art：

1. the present invention is mixed using two kinds of epoxy resin of epoxy resin SM618 and epoxy resin SM6101, it can improve and bond by force Make viscosity B coefficent less while spending, the possibility of epoxy resin SM618 crystallization can also be reduced, it is to avoid be independent using a kind of The defect that epoxy resin is brought.

It is Benzyl Benzoate 2. polyamide curing agent of the present invention produces for Hubei Green Homeland Material Technology Co., Ltd What 35 parts of ester leftover bits and pieces, dimeric dibasic acid or the reaction of 160-180 DEG C of triethylene tetramine of 35 parts and 30 parts of trimer acid were obtained.Polyamide cure Thing has higher toughness and bonding force, can improve the adhesion strength and bending strength of the back mesh glue, it is most important that this gathers Amide hardener introduces the synthesis of Ergol leftover bits and pieces and obtained, and not only with low cost, intensity is higher, and become give up into Treasured, is conducive to environmental protection.

3. back mesh glue of the present invention 20-30min can solidify in 30-35 DEG C of film-forming room, production is greatly improved Efficiency.

4. the shear strength of back mesh glue of the present invention（Steel/steel）Up to 20Mpa（This intensity index reaches construction structure glue mark It is accurate）, used the stone material bending strength of the back mesh glue more than not using the stone material bending strength of the back mesh glue to be doubled.

Embodiment

Below in conjunction with the embodiment of the present invention, technical scheme is clearly and completely described.

Embodiment 1

A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is characterised in that：Including following technique Step：

（1）The preparation of A glue：60 parts of epoxy resin SM618,30 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 3 parts of 6 parts of water glycerin ether and neopentylglycol diglycidyl ether stir 10-15min into the vacuum planetary mixer that can be heated, Then 100 parts of calcite, 1.2 parts of stirring 25-35min of 6 parts of polyadipate acid anhydride and positive tetraisopropyl titanate are sequentially added, wherein instead It is 55-60 DEG C to answer temperature, and vacuum is 0.075-0.095 MPas, and mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：First by 12 parts of triethylene tetramine and 6 parts of addition reactors of bisphenol-A, controlling reaction temperature 55- 60 DEG C, 30min is stirred, then sequentially adds 30 parts of 28 parts of polyamide curing agent and calcite in reactor, control reaction temperature 55-60 DEG C of degree, stirs 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 2:1 well mixed can be made into the Stone back mesh glue.

Embodiment 2

A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is characterised in that：Including following technique Step：

（1）The preparation of A glue：50 parts of epoxy resin SM618,25 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 10-15min is stirred in the vacuum planetary mixer that 3 parts of 5 parts of water glycerin ether and neopentylglycol diglycidyl ether can be heated, so After sequentially add 70 parts of calcite, 1.0 parts of stirring 25-35min of 5 parts of polyadipate acid anhydride and positive tetraisopropyl titanate, wherein reacting Temperature is 55-60 DEG C, and vacuum is 0.075-0.095 MPas, and mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：First by 14 parts of triethylene tetramine and 8 parts of addition reactors of bisphenol-A, controlling reaction temperature 55- 60 DEG C, 30min is stirred, then sequentially adds 40 parts of 32 parts of polyamide curing agent and calcite in reactor, control reaction temperature 55-60 DEG C of degree, stirs 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 3:1 well mixed can be made into the Stone back mesh glue.

Embodiment 3

A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is characterised in that：Including following technique Step：

（1）The preparation of A glue：40 parts of epoxy resin SM618,20 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 2 parts of 4 parts of water glycerin ether and neopentylglycol diglycidyl ether stir 10-15min into the vacuum planetary mixer that can be heated, Then 60 parts of calcite, 0.8 part of stirring 25-35min of 5 parts of polyadipate acid anhydride and positive tetraisopropyl titanate are sequentially added, wherein instead It is 55-60 DEG C to answer temperature, and vacuum is 0.075-0.095 MPas, and mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：First will by 10 parts of triethylene tetramine, 8 parts of addition reactors of 8 parts of diethylenetriamine and bisphenol-A, 55-60 DEG C of controlling reaction temperature, stirs 30min, and 50 parts of 45 parts of polyamide curing agent and calcite then are sequentially added into reaction In kettle, 55-60 DEG C of controlling reaction temperature stirs 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 4:1 well mixed can be made into the Stone back mesh glue.

Embodiment 4

A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is characterised in that：Including following technique Step：

（1）The preparation of A glue：60 parts of epoxy resin SM618,30 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 4 parts of 6 parts of water glycerin ether and neopentylglycol diglycidyl ether stir 10-15min into the vacuum planetary mixer that can be heated, Then 100 parts of calcite, 1.5 parts of stirring 25-35min of 7 parts of polyadipate acid anhydride and positive tetraisopropyl titanate are sequentially added, wherein instead It is 55-60 DEG C to answer temperature, and vacuum is 0.075-0.095 MPas, and mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：First by 10 parts of triethylene tetramine, 10 parts of 1,3- cyclohexyl diamines and 10 parts of addition reactors of bisphenol-A In, 55-60 DEG C of controlling reaction temperature stirs 30min, then sequentially adds 50 parts of 50 parts of polyamide curing agent and calcite instead Answer in kettle, 55-60 DEG C of controlling reaction temperature, stir 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 5:1 well mixed can be made into the Stone back mesh glue.

Embodiment 5

A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is characterised in that：Including following technique Step：

（1）The preparation of A glue：50 parts of epoxy resin SM618,25 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 3 parts of 5 parts of water glycerin ether and neopentylglycol diglycidyl ether stir 10-15min into the vacuum planetary mixer that can be heated, Then 80 parts of calcite, 1.3 parts of stirring 25-35min of 7 parts of polyadipate acid anhydride and positive tetraisopropyl titanate are sequentially added, wherein instead It is 55-60 DEG C to answer temperature, and vacuum is 0.075-0.095 MPas, and mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：First by 10 parts of diethylenetriamine, 10 parts of 1,3- cyclohexyl diamines and 10 parts of addition reactors of bisphenol-A In, 55-60 DEG C of controlling reaction temperature stirs 30min, then sequentially adds 50 parts of 50 parts of polyamide curing agent and calcite instead Answer in kettle, 55-60 DEG C of controlling reaction temperature, stir 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 6:1 well mixed can be made into the Stone back mesh glue.

Embodiment 6

A kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is characterised in that：Including following technique Step：

（1）The preparation of A glue：40 parts of epoxy resin SM618,20 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 3 parts of 4 parts of water glycerin ether and neopentylglycol diglycidyl ether stir 10-15min into the vacuum planetary mixer that can be heated, Then 80 parts of calcite, 1.3 parts of stirring 25-35min of 7 parts of polyadipate acid anhydride and positive tetraisopropyl titanate are sequentially added, wherein instead It is 55-60 DEG C to answer temperature, and vacuum is 0.075-0.095 MPas, and mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：First by 5 parts of N- aminoethyl piperazines, 15 parts of 1,3- cyclohexyl diamines and 10 parts of addition reactors of bisphenol-A In, 55-60 DEG C of controlling reaction temperature stirs 30min, then sequentially adds 50 parts of 50 parts of polyamide curing agent and calcite instead Answer in kettle, 55-60 DEG C of controlling reaction temperature, stir 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 7:1 well mixed can be made into the Stone back mesh glue.

Comparative example 1

Comprise the following steps that：

（1）The preparation of A glue：90 parts of epoxy resin SM618,6 parts of cardanol glycidyl ether and neopentyl glycol are sequentially added first 3 parts of diglycidyl ether stirs 10-15min into the vacuum planetary mixer that can be heated, and then sequentially adds calcite 100 Part, 6 parts of polyadipate acid anhydride and positive tetraisopropyl titanate 1.2

Part stirring 25-35min, wherein reaction temperature are 55-60 DEG C, and vacuum is 0.075-0.095 MPas, and mixing speed is 500-800 revs/min, finally discharge to obtain A glue；

（2）The preparation of B glue：First by 12 parts of triethylene tetramine and 6 parts of addition reactors of bisphenol-A, controlling reaction temperature 55- 60 DEG C, 30min is stirred, then sequentially adds 30 parts of 28 parts of polyamide curing agent and calcite in reactor, control reaction temperature 55-60 DEG C of degree, stirs 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 2:1 well mixed can be made into the Stone back mesh glue.

Comparative example 2

Comprise the following steps that：

（1）The preparation of A glue：60 parts of epoxy resin SM618,30 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 3 parts of 6 parts of water glycerin ether and neopentylglycol diglycidyl ether stir 10-15min into the vacuum planetary mixer that can be heated, Then sequentially add 100 parts of calcite, 6 parts of polyadipate acid anhydride and

Positive 1.2 parts of stirring 25-35min of tetraisopropyl titanate, wherein reaction temperature is 55-60 DEG C, and vacuum is 0.075-0.095 MPa, mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：First by 12 parts of addition reactors of triethylene tetramine, then by 28 parts of polyamide curing agent and side 30 parts of stone of solution is sequentially added in reactor, and 55-60 DEG C of controlling reaction temperature stirs 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 2:1 well mixed can be made into the Stone back mesh glue.

Comparative example 3

Comprise the following steps that：

（1）The preparation of A glue：60 parts of epoxy resin SM618,30 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 3 parts of 6 parts of water glycerin ether and neopentylglycol diglycidyl ether stir 10-15min into the vacuum planetary mixer that can be heated, Then sequentially add 100 parts of calcite, 6 parts of polyadipate acid anhydride and

Positive 1.2 parts of stirring 25-35min of tetraisopropyl titanate, wherein reaction temperature is 55-60 DEG C, and vacuum is 0.075-0.095 MPa, mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：40 parts of the polyamide curing agent that will be synthesized with dimeric dibasic acid or 30 parts of 60 parts of trimer acid and triethylene tetramine 30 parts sequentially add in reactor with calcite, 55-60 DEG C of controlling reaction temperature, stir 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 2:1 well mixed can be made into the Stone back mesh glue.

Comparative example 4

Comprise the following steps that：

（1）The preparation of A glue：60 parts of epoxy resin SM618,30 parts of epoxy resin SM6101, anacardol contracting are sequentially added first 3 parts of 6 parts of water glycerin ether and neopentylglycol diglycidyl ether stir 10-15min into the vacuum planetary mixer that can be heated, Then 100 parts of calcite, 1.2 parts of stirring 25-35min of 6 parts of polyadipate acid anhydride and positive tetraisopropyl titanate are sequentially added, wherein instead It is 55-60 DEG C to answer temperature, and vacuum is 0.075-0.095 MPas, and mixing speed is 500-800 revs/min, and finally discharge to obtain A glue；

（2）The preparation of B glue：First by 30 parts of triethylene tetramine and 6 parts of addition reactors of bisphenol-A, controlling reaction temperature 55- 60 DEG C, 30min is stirred, then by 30 parts of addition reactors of calcite, 55-60 DEG C of controlling reaction temperature stirs 30-45min, Finally discharge to obtain B glue；

（3）By A glue and B glue by weight 2:1 well mixed can be made into the Stone back mesh glue.

Stone back mesh glue performance obtained by above example is as follows：

The superiority of the present invention is understood by above Stone back mesh glue performance, dry glue speed is fast, shear strength（Steel/steel）Up to 20Mpa More than, this intensity index reaches construction structure glue standard, has used stone material/cement plate bending strength ratio of the back mesh glue and has not had Bending strength before use is doubled many.

Claims (5)

1. a kind of low cost, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is characterised in that：It is the low cost, fast Solidification, the Stone back mesh glue of high intensity include A glue and its B glue that uses cooperatively, wherein wherein A glue by following parts by weight original Material is made：It is 35-65 parts of epoxy resin SM618,15-35 parts of epoxy resin SM6101,3-6 parts of cardanol glycidyl ether, new 2-5 parts of neopentyl glycol diglycidyl glycerin ether, 50-100 parts of calcite, 5-8 parts of polyadipate acid anhydride, positive tetraisopropyl titanate 0.8-1.5 Part；B glue is prepared from the following raw materials in parts by weight；10-50 parts of polyamide curing agent, modified fatty amine curing agent or modified alicyclic ring 4-20 parts of amine hardener, 10-50 parts of calcite.

2. a kind of low cost according to claim 1, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, its It is characterised by：Described SM618 is standard Bisphenol-A epoxy resin, and epoxide number is 0.48-0.54；SM6101 is not crystal type ring Oxygen tree fat, epoxide number is 0.41-0.47.

3. a kind of low cost according to claim 1, solidification, the Stone back mesh glue of high intensity and preparation method thereof, it is special Levy and be：Described polyamide curing agent is 35 parts of Ergol leftover bits and pieces, 35 parts and 30 part three second of dimeric dibasic acid or trimer acid 160-180 DEG C of alkene tetramine reacts what is obtained.

4. a kind of low cost according to claim 1, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, its It is characterised by：Described modified fatty amine is diethylenetriamine, triethylene tetramine, TEPA, pentaethylene hexamine, many ethene One or more of mixtures in polyamines are made through bisphenol A modified, and modified aliphatic cyclic amine is 1,3- cyclohexyl diamines, N- aminoethyl piperazines One or more of mixtures in piperazine, m-phenylene diamine (MPD), m-xylene diamine, IPD are made through bisphenol A modified.

5. a kind of low cost according to claim 1, fast solidification, the Stone back mesh glue of high intensity and preparation method thereof, its It is characterised by：Comprise the following steps that：

（1）The preparation of A glue：35-65 parts of epoxy resin SM618,15-35 parts of epoxy resin SM6101, waist are sequentially added first 2-5 parts of 3-6 parts of fruit phenol glycidol ether and neopentylglycol diglycidyl ether are stirred into the vacuum planetary mixer that can be heated 10-15min is mixed, 50-100 parts of calcite, 5-8 parts of polyadipate acid anhydride and positive tetraisopropyl titanate 0.8-1.5 is then sequentially added Part stirring 25-35min, wherein reaction temperature are 55-60 DEG C, and vacuum is 0.075-0.095 MPas, and mixing speed is 500- 800 revs/min, finally discharge to obtain A glue；

（2）The preparation of B glue：4-20 parts of fatty amine curing agent or alicyclic ring amine hardener and bisphenol-A are added in reactor first, control 55-60 DEG C of reaction temperature processed, stirs 30min, then sequentially adds 10-50 parts of 10-50 parts of polyamide curing agent and calcite In reactor, 55-60 DEG C of controlling reaction temperature stirs 30-45min, finally discharge to obtain B glue；

（3）By A glue and B glue by weight 7-2:1 well mixed can be made into the Stone back mesh glue.