阅读说明：本技术 一种压敏型橡胶粘合剂及其制备方法 (Pressure-sensitive rubber adhesive and preparation method thereof ) 是由 赵会岩 张志胜 赵海林 张玉红 于 2020-12-21 设计创作，主要内容包括：本发明提供了一种压敏型橡胶粘合剂及其制备方法,涉及橡胶粘合剂技术领域。步骤S100.将第一橡胶和第二橡胶溶于甲苯得到橡胶溶液,步骤S200.将甲基丙烯酸-2-乙基己酯、甲基丙烯酸甲酯、甲基丙烯酸、引发剂、乳化剂和去离子水按照一定质量比加入到反应釜中,在40-50℃下搅拌30-40min,搅拌速度为60-65转/分,步骤S300.将S100中获得的橡胶溶液加入到S200的反应釜中,所述橡胶溶液与S200的反应釜中混合液质量比为(15-25)：(75-85),搅拌并升温5-7h得到压敏型橡胶粘合剂。本发明的压敏型橡胶粘合剂具有初粘力大、持粘性强、储存期长等优点。(The invention provides a pressure-sensitive rubber adhesive and a preparation method thereof, and relates to the technical field of rubber adhesives. S100, dissolving a first rubber and a second rubber in toluene to obtain a rubber solution, S200, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, an initiator, an emulsifier and deionized water into a reaction kettle according to a certain mass ratio, stirring at the temperature of 40-50 ℃ for 30-40min at the stirring speed of 60-65 rpm, and S300, adding the rubber solution obtained in S100 into the reaction kettle of S200, wherein the mass ratio of the rubber solution to a mixed solution in the reaction kettle of S200 is (15-25): (75-85), stirring and heating for 5-7h to obtain the pressure-sensitive rubber adhesive. The pressure-sensitive rubber adhesive has the advantages of large initial adhesion, strong permanent adhesion, long storage period and the like.)

1. A method for preparing a pressure-sensitive rubber adhesive, comprising the steps of:

s100, dissolving the first rubber and the second rubber in toluene to obtain a rubber solution,

s200, mixing 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, an initiator, an emulsifier and deionized water according to a mass ratio of (70-80): (10-15): (10-15): (1-2): (2-3): (100-120) is added into a reaction kettle, stirred for 30-40min at the temperature of 40-50 ℃ and the stirring speed is 60-65 r/min, so as to obtain a first acrylic ester monomer mixed solution,

step S300, adding the rubber solution obtained in the step S100 into a reaction kettle of the step S200, wherein the mass ratio of the rubber solution to the mixed liquid in the reaction kettle of the step S200 is (15-25): (75-85), stirring and heating to the polymerization temperature of 50-100 ℃, and reacting for 5-7h to obtain the pressure-sensitive rubber adhesive.

2. The method for producing a pressure-sensitive rubber adhesive according to claim 1,

in the step S100, the first rubber is one of natural rubber, cis-butadiene rubber, styrene-butadiene rubber, butyl rubber or chloroprene rubber, the second rubber is one of natural rubber, cis-butadiene rubber, styrene-butadiene rubber, butyl rubber or chloroprene rubber,

in the step S200, the initiator is ammonium persulfate solution, and the mass ratio of ammonium persulfate to deionized water is 1: 30, and the emulsifier is an emulsifier T-20.

3. The method for preparing a pressure-sensitive rubber adhesive according to claim 1 or 2, wherein the step S100 specifically comprises:

step S110, mixing the first rubber and the second rubber according to the mass ratio of (35-50): (50-65) adding the mixture into an open mill for mixing at the mixing temperature of 40-70 ℃ for 10-30min to obtain mixed rubber,

and S120, cutting the mixed rubber obtained in the S110 into square blocks with the side length not more than 10mm, and dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution.

4. The method for preparing a pressure-sensitive rubber adhesive according to claim 1 or 2, wherein the step S200 specifically comprises:

s210, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 initiator, emulsifier and deionized water into a reaction kettle, and stirring at the temperature of 40-50 ℃ for 5-8min at the stirring speed of 60-65 rpm;

step s220. charge additional 3/4 initiator into the first drip reactor located above the reaction kettle,

step S230, pumping the mixed liquid in the reaction kettle in the step S210 into a second dropping device positioned above the reaction kettle,

and S240, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 40-50 ℃, stirring at 60-65 rpm for 10-15min while keeping the same dropping time of the first dropping device and the second dropping device, and continuously stirring for 7-25min to obtain the first acrylate monomer mixed solution.

5. The method for producing a pressure-sensitive rubber adhesive according to claim 4,

in step S200, the method further includes: and S250, adding diisopropylethylamine into the obtained first acrylate monomer mixed solution, wherein the addition amount of the diisopropylethylamine is 0.8-1.2% of the total mass of the first acrylate monomer mixed solution, and stirring at the temperature of 40-50 ℃ for 5-10min at the stirring speed of 60-65 rpm to obtain a second acrylate monomer mixed solution.

6. The method for preparing a pressure-sensitive rubber adhesive according to claim 1, wherein after the reaction for 5-7 hours in the step S300, 100 parts by mass of a mixed solution of acetone and hexane is added into a reaction kettle for extraction to obtain the pressure-sensitive rubber adhesive, wherein the mass ratio of acetone to hexane is (35-40): (60-65).

7. A pressure-sensitive rubber adhesive characterized in that,

the rubber adhesive is obtained by the production method of a pressure-sensitive rubber adhesive as described in any one of claims 1 to 6.

Technical Field

The invention relates to the technical field of rubber adhesives, in particular to a pressure-sensitive rubber adhesive and a preparation method thereof.

Background

The rubber adhesive is prepared with neoprene, nitrile, butyl silicon rubber, polysulfide and other synthetic rubber or natural rubber as main material. Rubber adhesives are frequently applied between rubber and rubber, rubber and metal, rubber and plastic and other materials, and when the adhesives are bonded, heating and pressing are generally needed, and the adhesives are cured after a solvent is volatilized, so that the operation is complicated when the adhesives are used. The pressure-sensitive rubber adhesive is a kind of pressure-sensitive rubber adhesive, and can be easily used.

The existing pressure-sensitive rubber adhesives have the following problems: small initial adhesion, weak permanent adhesion, short storage period and the like.

In Chinese patent with the publication number of CN102816546B, publication date of 2014.04.02 and name of 'a preparation method of acrylate pressure-sensitive adhesive', the prepared acrylate pressure-sensitive adhesive is completely cured within 0.5-1h, has no post-curing effect, has 180-degree peel strength of more than or equal to 20N/20mm and constant viscosity of more than or equal to 35h at normal temperature, still has fluidity when stored for 8-12 days under the condition of sealing and shading at room temperature, and can be used for the coating process of pressure-sensitive adhesive products. The adhesive property is general, and the adhesive has no outstanding advantage for the adhesion of rubber products at normal temperature.

In Chinese patent with the publication number of CN108587527B, publication date of 2020.02.04 and name of 'a preparation method of low-temperature pressure-sensitive adhesive', the low-temperature performance of the pressure-sensitive adhesive is improved, the low-temperature pressure-sensitive adhesive is at-10 ℃, according to the initial adhesion test method of GB/T31125-2014 adhesive tape, the initial adhesion of the ring method adhesive tape is not less than 25N, and the stripping force is not less than 31N/25 mm; the ring initial adhesion at-20 ℃ is not less than 22N, and the peeling force is not less than 33N/25 mm. The low-temperature adhesion is improved, but the low-temperature adhesion has no outstanding advantage on the adhesion between rubber products at normal temperature.

Disclosure of Invention

The present invention is directed to solving at least one of the above problems.

To this end, a first object of the present invention is to provide a method for producing a pressure-sensitive rubber adhesive.

A second object of the present invention is to provide a pressure-sensitive rubber adhesive.

To achieve the first object of the present invention, embodiments of the present invention provide a method for preparing a pressure-sensitive rubber adhesive, including the steps of:

s100, dissolving the first rubber and the second rubber in toluene to obtain a rubber solution,

s200, mixing 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, an initiator, an emulsifier and deionized water according to a mass ratio of (70-80): (10-15): (10-15): (1-2): (2-3): (100-120) is added into a reaction kettle, stirred for 30-40min at the temperature of 40-50 ℃ and the stirring speed is 60-65 r/min, so as to obtain a first acrylic ester monomer mixed solution,

step S300, adding the rubber solution obtained in the step S100 into a reaction kettle of the step S200, wherein the mass ratio of the rubber solution to the mixed liquid in the reaction kettle of the step S200 is (15-25): (75-85), stirring and heating to the polymerization temperature of 50-100 ℃, and reacting for 5-7h to obtain the pressure-sensitive rubber adhesive.

In this embodiment, the components of the first rubber and the second rubber are selected according to the object to be bonded, and the improvement is made on the basis of the acrylate pressure-sensitive rubber adhesive, and the rubber solution and the acrylate monomer mixed solution are mixed and reacted, so as to improve the adhesive property of the pressure-sensitive rubber adhesive in the special occasion. The first acrylate monomer mixed solution prepared in the step S200 is pre-emulsified, and a rubber solution and the acrylate monomer mixed solution are mixed and reacted, so that a graft copolymerization reaction occurs between a part of rubber and an acrylate monomer, and the cohesive strength of the pressure-sensitive rubber adhesive can be improved, and the adhesive force between the pressure-sensitive rubber adhesive and a specific adhesive material can be increased.

In addition, the first acrylic ester monomer mixed solution comprises a soft monomer 2-ethylhexyl methacrylate, a hard monomer methyl methacrylate and a crosslinking monomer methacrylic acid, and the soft monomer 2-ethylhexyl methacrylate, the hard monomer methyl methacrylate and the crosslinking monomer methacrylic acid have a branched structure, so that the initial adhesion of the pressure-sensitive rubber adhesive is improved.

Further, in the step S100, the first rubber is one of natural rubber, cis-butadiene rubber, styrene-butadiene rubber, butyl rubber or chloroprene rubber, the second rubber is one of natural rubber, cis-butadiene rubber, styrene-butadiene rubber, butyl rubber or chloroprene rubber,

in the step S200, the initiator is ammonium persulfate solution, and the mass ratio of ammonium persulfate to deionized water is 1: 30, and the emulsifier is an emulsifier T-20.

The components of the first rubber and the second rubber are selected according to the adhered objects, namely, the first rubber and the second rubber have good affinity with the objects to be adhered, so that the obtained pressure-sensitive rubber adhesive has large initial adhesion and strong adhesion holding capacity in some special occasions.

The initiator used is ammonium persulfate liquid, the emulsifier used is emulsifier T-20, the two have good adaptability, and the obtained first acrylate monomer mixed liquid has good stability.

Further, the step S100 specifically includes: step S110, mixing the first rubber and the second rubber according to the mass ratio of (35-50): (50-65) adding the mixture into an open mill for mixing at the mixing temperature of 40-70 ℃ for 10-30min to obtain mixed rubber,

and S120, cutting the mixed rubber obtained in the S110 into square blocks with the side length not more than 10mm, and dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution.

The first rubber and the second rubber may have the same or different components, and may be selected according to the objects to be bonded. When the components of the first rubber and the second rubber are the same, S110 may be omitted. Cutting into square blocks with the side length of not more than 10mm, mainly for accelerating the dissolution speed of the rubber.

Further, the step S200 specifically includes: s210, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 initiator, emulsifier and deionized water into a reaction kettle, and stirring at the temperature of 40-50 ℃ for 5-8min at the stirring speed of 60-65 rpm;

step s220. charge additional 3/4 initiator into the first drip reactor located above the reaction kettle,

step S230, pumping the mixed liquid in the reaction kettle in the step S210 into a second dropping device positioned above the reaction kettle,

and S240, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 40-50 ℃, stirring at 60-65 rpm for 10-15min while keeping the same dropping time of the first dropping device and the second dropping device, and continuously stirring for 7-25min to obtain the first acrylate monomer mixed solution.

The first acrylate monomer mixed solution is partially reacted in the preparation process, and in the design point of the invention, the first acrylate monomer mixed solution needs to maintain certain reactivity so as to be subjected to a grafting reaction with the rubber solution. The contact probability between the initiator and the 2-ethylhexyl methacrylate, the methyl methacrylate and the methacrylic acid can be increased by adopting a double-dropping mode, and partial reaction is initiated; the temperature in the reaction kettle is controlled to be 40-50 ℃, the stirring speed is 60-65 rpm, the polymerization reaction among 2-ethylhexyl methacrylate, methyl methacrylate and methacrylic acid can be limited, a long chain is not easy to form, the first acrylate monomer mixed solution is further kept to have certain reaction activity, and the first acrylate monomer mixed solution also has good stability and fluidity.

Further, the step S200 further includes: and S250, adding diisopropylethylamine into the obtained first acrylate monomer mixed solution, wherein the addition amount of the diisopropylethylamine is 0.8-1.2% of the total mass of the first acrylate monomer mixed solution, and stirring at the temperature of 40-50 ℃ for 5-10min at the stirring speed of 60-65 rpm to obtain a second acrylate monomer mixed solution.

The diisopropylethylamine has a certain end-capping effect, and the main groups are carboxyl, hydroxyl and the like, and is added into the first acrylate monomer mixed solution to keep the first acrylate monomer mixed solution to have certain reaction activity so as to perform a grafting reaction with a rubber solution subsequently. Partial reaction occurs in the first acrylic ester monomer mixed solution to generate some oligomers, the proportion of terminal groups or active groups is limited, and the addition amount of the diisopropylethylamine is not large. The temperature is controlled to be 40-50 ℃, the stirring speed is 60-65 rpm, on one hand, the contact probability of the diisopropylethylamine and the terminal group or the active group is increased, on the other hand, the stability of the first acrylate monomer mixed solution is prevented from being damaged, and the stability of the first acrylate monomer mixed solution in the preparation process can be increased.

Further, after reacting for 5-7 hours in the step S300, adding 100 parts by mass of a mixed solution of acetone and hexane into the reaction kettle for extraction to obtain the pressure-sensitive rubber adhesive, wherein the mass ratio of acetone to hexane is (35-40): (60-65).

Some examples show that the pressure-sensitive rubber adhesive extracted with a mixture of acetone and hexane can be stored for a longer period of time.

To achieve the second object of the present invention, embodiments of the present invention provide a pressure-sensitive rubber adhesive obtained by a method of producing a pressure-sensitive rubber adhesive according to any one of the embodiments of the present invention.

The pressure-sensitive rubber adhesive of the present embodiment is obtained by the method for preparing a pressure-sensitive rubber adhesive according to any one of the embodiments of the present invention, and therefore, has all the advantages of the method for preparing a pressure-sensitive rubber adhesive according to any one of the embodiments of the present invention, and will not be described herein again.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be described in further detail with reference to specific embodiments. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The embodiment of the invention provides a preparation method of a pressure-sensitive rubber adhesive, which comprises the following steps:

s100, dissolving the first rubber and the second rubber in toluene to obtain a rubber solution,

s200, mixing 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, an initiator, an emulsifier and deionized water according to a mass ratio of (70-80): (10-15): (10-15): (1-2): (2-3): (100-120) is added into a reaction kettle, stirred for 30-40min at the temperature of 40-50 ℃ and the stirring speed is 60-65 r/min, so as to obtain a first acrylic ester monomer mixed solution,

step S300, adding the rubber solution obtained in the step S100 into a reaction kettle of the step S200, wherein the mass ratio of the rubber solution to the mixed liquid in the reaction kettle of the step S200 is (15-25): (75-85), stirring and heating to the polymerization temperature of 50-100 ℃, and reacting for 5-7h to obtain the pressure-sensitive rubber adhesive.

In this embodiment, the components of the first rubber and the second rubber are selected according to the object to be bonded, and the improvement is made on the basis of the acrylate pressure-sensitive rubber adhesive, and the rubber solution and the acrylate monomer mixed solution are mixed and reacted, so as to improve the adhesive property of the pressure-sensitive rubber adhesive in the special occasion. The first acrylate monomer mixed solution prepared in the step S200 is pre-emulsified, and a rubber solution and the acrylate monomer mixed solution are mixed and reacted, so that a graft copolymerization reaction occurs between a part of rubber and an acrylate monomer, and the cohesive strength of the pressure-sensitive rubber adhesive can be improved, and the adhesive force between the pressure-sensitive rubber adhesive and a specific adhesive material can be increased.

In addition, the first acrylic ester monomer mixed solution comprises a soft monomer 2-ethylhexyl methacrylate, a hard monomer methyl methacrylate and a crosslinking monomer methacrylic acid, and the soft monomer 2-ethylhexyl methacrylate, the hard monomer methyl methacrylate and the crosslinking monomer methacrylic acid have a branched structure, so that the initial adhesion of the pressure-sensitive rubber adhesive is improved.

In some embodiments of the present invention, in the step S100, the first rubber is one of natural rubber, cis-butadiene rubber, styrene-butadiene rubber, butyl rubber or chloroprene rubber, and the second rubber is one of natural rubber, cis-butadiene rubber, styrene-butadiene rubber, butyl rubber or chloroprene rubber,

in the step S200, the initiator is ammonium persulfate solution, and the mass ratio of ammonium persulfate to deionized water is 1: 30, and the emulsifier is an emulsifier T-20.

The components of the first rubber and the second rubber are selected according to the adhered objects, namely, the first rubber and the second rubber have good affinity with the objects to be adhered, so that the obtained pressure-sensitive rubber adhesive has large initial adhesion and strong adhesion holding capacity in some special occasions.

The initiator used is ammonium persulfate liquid, the emulsifier used is emulsifier T-20, the two have good adaptability, and the obtained first acrylate monomer mixed liquid has good stability.

In some embodiments of the present invention, the step S100 specifically includes: step S110, mixing the first rubber and the second rubber according to the mass ratio of (35-50): (50-65) adding the mixture into an open mill for mixing at the mixing temperature of 40-70 ℃ for 10-30min to obtain mixed rubber,

and S120, cutting the mixed rubber obtained in the S110 into square blocks with the side length not more than 10mm, and dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution.

The first rubber and the second rubber may have the same or different components, and may be selected according to the objects to be bonded. When the components of the first rubber and the second rubber are the same, S110 may be omitted. Cutting into square blocks with the side length of not more than 10mm, mainly for accelerating the dissolution speed of the rubber.

In some embodiments of the present invention, the step S200 specifically includes: s210, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 initiator, emulsifier and deionized water into a reaction kettle, and stirring at the temperature of 40-50 ℃ for 5-8min at the stirring speed of 60-65 rpm;

step s220. charge additional 3/4 initiator into the first drip reactor located above the reaction kettle,

step S230, pumping the mixed liquid in the reaction kettle in the step S210 into a second dropping device positioned above the reaction kettle,

and S240, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 40-50 ℃, stirring at 60-65 rpm for 10-15min while keeping the same dropping time of the first dropping device and the second dropping device, and continuously stirring for 7-25min to obtain the first acrylate monomer mixed solution.

The first acrylate monomer mixed solution is partially reacted in the preparation process, and in the design point of the invention, the first acrylate monomer mixed solution needs to maintain certain reactivity so as to be subjected to a grafting reaction with the rubber solution. The contact probability between the initiator and the 2-ethylhexyl methacrylate, the methyl methacrylate and the methacrylic acid can be increased by adopting a double-dropping mode, and partial reaction is initiated; the temperature in the reaction kettle is controlled to be 40-50 ℃, the stirring speed is 60-65 rpm, the polymerization reaction among 2-ethylhexyl methacrylate, methyl methacrylate and methacrylic acid can be limited, a long chain is not easy to form, the first acrylate monomer mixed solution is further kept to have certain reaction activity, and the first acrylate monomer mixed solution also has good stability and fluidity.

In some embodiments of the present invention, the step S200 further includes: and S250, adding diisopropylethylamine into the obtained first acrylate monomer mixed solution, wherein the addition amount of the diisopropylethylamine is 0.8-1.2% of the total mass of the first acrylate monomer mixed solution, and stirring at the temperature of 40-50 ℃ for 5-10min at the stirring speed of 60-65 rpm to obtain a second acrylate monomer mixed solution.

The diisopropylethylamine has a certain end-capping effect, and the main groups are carboxyl, hydroxyl and the like, and is added into the first acrylate monomer mixed solution to keep the first acrylate monomer mixed solution to have certain reaction activity so as to perform a grafting reaction with a rubber solution subsequently. Partial reaction occurs in the first acrylic ester monomer mixed solution to generate some oligomers, the proportion of terminal groups or active groups is limited, and the addition amount of the diisopropylethylamine is not large. The temperature is controlled to be 40-50 ℃, the stirring speed is 60-65 rpm, on one hand, the contact probability of the diisopropylethylamine and the terminal group or the active group is increased, on the other hand, the stability of the first acrylate monomer mixed solution is prevented from being damaged, and the stability of the first acrylate monomer mixed solution in the preparation process can be increased.

In some embodiments of the present invention, after the reaction for 5 to 7 hours in step S300, 100 parts by mass of a mixed solution of acetone and hexane is added into the reaction kettle for extraction, so as to obtain the pressure-sensitive rubber adhesive, wherein the mass ratio of acetone to hexane is (35 to 40): (60-65).

Some examples show that the pressure-sensitive rubber adhesive extracted with a mixture of acetone and hexane can be stored for a longer period of time.

To achieve the second object of the present invention, embodiments of the present invention provide a pressure-sensitive rubber adhesive obtained by a method of producing a pressure-sensitive rubber adhesive according to any one of the embodiments of the present invention.

Example 1:

the present embodiment provides a method for preparing a pressure-sensitive rubber adhesive, which comprises the following steps:

s1, mixing the first rubber and the second rubber according to a mass ratio of 35: 65 into an open mill for mixing at 70 ℃ for 10min to obtain rubber compound,

step S2, cutting the mixed rubber obtained in the step S1 into square blocks with the side length of 6mm, dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution,

s3, material formula: 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, ammonium persulfate liquid, an emulsifier T-20 and deionized water according to a mass ratio of 70: 15: 15: 1: 2: 100, wherein the ammonium persulfate solution is prepared from ammonium persulfate and deionized water according to the mass ratio of 1: 30, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 ammonium persulfate solution, emulsifier T-20 and deionized water into a reaction kettle, stirring at 50 ℃ for 8min at the stirring speed of 60 r/min,

step S4, adding 3/4 ammonium persulfate solution in step S3 into a first dropping device positioned above the reaction kettle,

s5, pumping the mixed liquid in the reaction kettle in the step S3 into a second dropping device positioned above the reaction kettle,

s6, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 50 ℃, stirring at 60 r/min for 15min, continuously stirring for 17min to obtain a first acrylate monomer mixed solution,

step S7, adding the rubber solution obtained in the step S2 into the first acrylate monomer mixed solution obtained in the step S6, wherein the mass ratio of the rubber solution to the first acrylate monomer mixed solution in the reaction kettle is 15: 85, stirring and heating to the polymerization temperature of 50 ℃, and reacting for 7 hours to obtain the pressure-sensitive rubber adhesive.

Example 2:

the present embodiment provides a method for preparing a pressure-sensitive rubber adhesive, which comprises the following steps:

s1, mixing a first rubber and a second rubber according to a mass ratio of 50: 50 percent of the mixture is added into an open mill for mixing, the mixing temperature is 40 ℃, the mixing time is 30min, the mixed rubber is obtained,

step S2, cutting the mixed rubber obtained in the step S1 into square blocks with the side length of 10mm, dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution,

s3, material formula: 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, ammonium persulfate liquid, an emulsifier T-20 and deionized water according to a mass ratio of 80: 10: 10: 1: 3: 120, wherein the ammonium persulfate solution is prepared from ammonium persulfate and deionized water according to the mass ratio of 1: 30, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 ammonium persulfate solution, emulsifier T-20 and deionized water into a reaction kettle, stirring at 40 ℃ for 5min at the stirring speed of 65 rpm,

step S4, adding 3/4 ammonium persulfate solution in step S3 into a first dropping device positioned above the reaction kettle,

s5, pumping the mixed liquid in the reaction kettle in the step S3 into a second dropping device positioned above the reaction kettle,

s6, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 40 ℃, stirring at 65 rpm for 10min, continuously stirring for 25min to obtain a first acrylate monomer mixed solution,

step S7, adding the rubber solution obtained in the step S2 into the first acrylate monomer mixed solution obtained in the step S6, wherein the mass ratio of the rubber solution to the first acrylate monomer mixed solution in the reaction kettle is 25: and 75, stirring and heating to the polymerization temperature of 100 ℃, and reacting for 5 hours to obtain the pressure-sensitive rubber adhesive.

Example 3:

the present embodiment provides a method for preparing a pressure-sensitive rubber adhesive, which comprises the following steps:

s1, mixing the first rubber and the second rubber according to a mass ratio of 35: 65 into an open mill for mixing at 70 ℃ for 10min to obtain rubber compound,

step S2, cutting the mixed rubber obtained in the step S1 into square blocks with the side length of 6mm, dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution,

s3, material formula: 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, ammonium persulfate liquid, an emulsifier T-20 and deionized water according to a mass ratio of 70: 15: 15: 1: 2: 100, wherein the ammonium persulfate solution is prepared from ammonium persulfate and deionized water according to the mass ratio of 1: 30, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 ammonium persulfate solution, emulsifier T-20 and deionized water into a reaction kettle, stirring at 50 ℃ for 8min at the stirring speed of 60 r/min,

step S4, adding 3/4 ammonium persulfate solution in step S3 into a first dropping device positioned above the reaction kettle,

s5, pumping the mixed liquid in the reaction kettle in the step S3 into a second dropping device positioned above the reaction kettle,

s6, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 50 ℃, stirring at 60 r/min for 15min, continuously stirring for 17min to obtain a first acrylate monomer mixed solution,

s7, adding diisopropylethylamine into the obtained first acrylate monomer mixed solution, wherein the addition amount of the diisopropylethylamine is 0.8 percent of the total mass of the first acrylate monomer mixed solution, stirring at 50 ℃ for 10min at the stirring speed of 60 revolutions per minute to obtain a second acrylate monomer mixed solution,

step S8, adding the rubber solution obtained in the step S2 into the second acrylic ester monomer mixed solution obtained in the step S7, wherein the mass ratio of the rubber solution to the second acrylic ester monomer mixed solution in the reaction kettle is 15: 85, stirring and heating to the polymerization temperature of 50 ℃, and reacting for 7 hours to obtain the pressure-sensitive rubber adhesive.

Example 4:

the present embodiment provides a method for preparing a pressure-sensitive rubber adhesive, which comprises the following steps:

s1, mixing a first rubber and a second rubber according to a mass ratio of 50: 50 percent of the mixture is added into an open mill for mixing, the mixing temperature is 40 ℃, the mixing time is 30min, the mixed rubber is obtained,

step S2, cutting the mixed rubber obtained in the step S1 into square blocks with the side length of 10mm, dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution,

s3, material formula: 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, ammonium persulfate liquid, an emulsifier T-20 and deionized water according to a mass ratio of 80: 10: 10: 1: 3: 120, wherein the ammonium persulfate solution is prepared from ammonium persulfate and deionized water according to the mass ratio of 1: 30, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 ammonium persulfate solution, emulsifier T-20 and deionized water into a reaction kettle, stirring at 40 ℃ for 5min at the stirring speed of 65 rpm,

step S4, adding 3/4 ammonium persulfate solution in step S3 into a first dropping device positioned above the reaction kettle,

s5, pumping the mixed liquid in the reaction kettle in the step S3 into a second dropping device positioned above the reaction kettle,

s6, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 40 ℃, stirring at 65 rpm for 10min, continuously stirring for 25min to obtain a first acrylate monomer mixed solution,

s7, adding diisopropylethylamine into the obtained first acrylate monomer mixed solution, wherein the addition amount of the diisopropylethylamine is 1.2 percent of the total mass of the first acrylate monomer mixed solution, stirring for 5min at 40 ℃, and the stirring speed is 65 revolutions per minute to obtain a second acrylate monomer mixed solution,

step S8, adding the rubber solution obtained in the step S2 into the second acrylic ester monomer mixed solution obtained in the step S7, wherein the mass ratio of the rubber solution to the second acrylic ester monomer mixed solution in the reaction kettle is 25: and 75, stirring and heating to the polymerization temperature of 100 ℃, and reacting for 5 hours to obtain the pressure-sensitive rubber adhesive.

Example 5:

the present embodiment provides a method for preparing a pressure-sensitive rubber adhesive, which comprises the following steps:

s1, mixing the first rubber and the second rubber according to a mass ratio of 35: 65 into an open mill for mixing at 70 ℃ for 10min to obtain rubber compound,

step S2, cutting the mixed rubber obtained in the step S1 into square blocks with the side length of 6mm, dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution,

s3, material formula: 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, ammonium persulfate liquid, an emulsifier T-20 and deionized water according to a mass ratio of 70: 15: 15: 1: 2: 100, wherein the ammonium persulfate solution is prepared from ammonium persulfate and deionized water according to the mass ratio of 1: 30, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 ammonium persulfate solution, emulsifier T-20 and deionized water into a reaction kettle, stirring at 50 ℃ for 8min at the stirring speed of 60 r/min,

step S4, adding 3/4 ammonium persulfate solution in step S3 into a first dropping device positioned above the reaction kettle,

s5, pumping the mixed liquid in the reaction kettle in the step S3 into a second dropping device positioned above the reaction kettle,

s6, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 50 ℃, stirring at 60 r/min for 15min, continuously stirring for 17min to obtain a first acrylate monomer mixed solution,

step S7, adding the rubber solution obtained in the step S2 into the first acrylate monomer mixed solution obtained in the step S6, wherein the mass ratio of the rubber solution to the first acrylate monomer mixed solution in the reaction kettle is 15: 85, stirring and heating to the polymerization temperature of 50 ℃, reacting for 7 hours,

step S8, adding 100 parts by mass of mixed solution of acetone and hexane into the reaction kettle of S7 for extraction to obtain the pressure-sensitive rubber adhesive, wherein the mass ratio of acetone to hexane is 35: 65.

example 6:

the present embodiment provides a method for preparing a pressure-sensitive rubber adhesive, which comprises the following steps:

s1, mixing a first rubber and a second rubber according to a mass ratio of 50: 50 percent of the mixture is added into an open mill for mixing, the mixing temperature is 40 ℃, the mixing time is 30min, the mixed rubber is obtained,

step S2, cutting the mixed rubber obtained in the step S1 into square blocks with the side length of 10mm, dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution,

s3, material formula: 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, ammonium persulfate liquid, an emulsifier T-20 and deionized water according to a mass ratio of 80: 10: 10: 1: 3: 120, wherein the ammonium persulfate solution is prepared from ammonium persulfate and deionized water according to the mass ratio of 1: 30, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 ammonium persulfate solution, emulsifier T-20 and deionized water into a reaction kettle, stirring at 40 ℃ for 5min at the stirring speed of 65 rpm,

step S4, adding 3/4 ammonium persulfate solution in step S3 into a first dropping device positioned above the reaction kettle,

s5, pumping the mixed liquid in the reaction kettle in the step S3 into a second dropping device positioned above the reaction kettle,

s6, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 40 ℃, stirring at 65 rpm for 10min, continuously stirring for 25min to obtain a first acrylate monomer mixed solution,

step S7, adding the rubber solution obtained in the step S2 into the first acrylate monomer mixed solution obtained in the step S6, wherein the mass ratio of the rubber solution to the first acrylate monomer mixed solution in the reaction kettle is 25: 75, stirring and heating to the polymerization temperature of 100 ℃, reacting for 5 hours,

step S8, adding 100 parts by mass of mixed solution of acetone and hexane into the reaction kettle of S7 for extraction to obtain the pressure-sensitive rubber adhesive, wherein the mass ratio of acetone to hexane is 40: 60.

example 7:

the present embodiment provides a method for preparing a pressure-sensitive rubber adhesive, which comprises the following steps:

s1, mixing the first rubber and the second rubber according to a mass ratio of 35: 65 into an open mill for mixing at 70 ℃ for 10min to obtain rubber compound,

step S2, cutting the mixed rubber obtained in the step S1 into square blocks with the side length of 6mm, dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution,

s3, material formula: 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, ammonium persulfate liquid, an emulsifier T-20 and deionized water according to a mass ratio of 70: 15: 15: 1: 2: 100, wherein the ammonium persulfate solution is prepared from ammonium persulfate and deionized water according to the mass ratio of 1: 30, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 ammonium persulfate solution, emulsifier T-20 and deionized water into a reaction kettle, stirring at 50 ℃ for 8min at the stirring speed of 60 r/min,

step S4, adding 3/4 ammonium persulfate solution in step S3 into a first dropping device positioned above the reaction kettle,

s5, pumping the mixed liquid in the reaction kettle in the step S3 into a second dropping device positioned above the reaction kettle,

s6, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 50 ℃, stirring at 60 r/min for 15min, continuously stirring for 17min to obtain a first acrylate monomer mixed solution,

s7, adding diisopropylethylamine into the obtained first acrylate monomer mixed solution, wherein the addition amount of the diisopropylethylamine is 0.8 percent of the total mass of the first acrylate monomer mixed solution, stirring at 50 ℃ for 10min at the stirring speed of 60 revolutions per minute to obtain a second acrylate monomer mixed solution,

step S8, adding the rubber solution obtained in the step S2 into the second acrylic ester monomer mixed solution obtained in the step S7, wherein the mass ratio of the rubber solution to the second acrylic ester monomer mixed solution in the reaction kettle is 15: 85, stirring and heating to the polymerization temperature of 50 ℃, reacting for 7 hours,

step S9, adding 100 parts by mass of mixed solution of acetone and hexane into the reaction kettle of S8 for extraction, wherein the mass ratio of acetone to hexane is 35: 65, a pressure-sensitive rubber adhesive was obtained.

Example 8:

the present embodiment provides a method for preparing a pressure-sensitive rubber adhesive, which comprises the following steps:

s1, mixing a first rubber and a second rubber according to a mass ratio of 50: 50 percent of the mixture is added into an open mill for mixing, the mixing temperature is 40 ℃, the mixing time is 30min, the mixed rubber is obtained,

step S2, cutting the mixed rubber obtained in the step S1 into square blocks with the side length of 10mm, dissolving the square blocks of the mixed rubber in toluene to obtain a rubber solution,

s3, material formula: 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, ammonium persulfate liquid, an emulsifier T-20 and deionized water according to a mass ratio of 80: 10: 10: 1: 3: 120, wherein the ammonium persulfate solution is prepared from ammonium persulfate and deionized water according to the mass ratio of 1: 30, adding 2-ethylhexyl methacrylate, methyl methacrylate, methacrylic acid, 1/4 ammonium persulfate solution, emulsifier T-20 and deionized water into a reaction kettle, stirring at 40 ℃ for 5min at the stirring speed of 65 rpm,

step S4, adding 3/4 ammonium persulfate solution in step S3 into a first dropping device positioned above the reaction kettle,

s5, pumping the mixed liquid in the reaction kettle in the step S3 into a second dropping device positioned above the reaction kettle,

s6, starting the second dropping device, then starting the first dropping device, keeping the temperature in the reaction kettle at 40 ℃, stirring at 65 rpm for 10min, continuously stirring for 25min to obtain a first acrylate monomer mixed solution,

s7, adding diisopropylethylamine into the obtained first acrylate monomer mixed solution, wherein the addition amount of the diisopropylethylamine is 1.2 percent of the total mass of the first acrylate monomer mixed solution, stirring for 5min at 40 ℃, and the stirring speed is 65 revolutions per minute to obtain a second acrylate monomer mixed solution,

step S8, adding the rubber solution obtained in the step S2 into the second acrylic ester monomer mixed solution obtained in the step S7, wherein the mass ratio of the rubber solution to the second acrylic ester monomer mixed solution in the reaction kettle is 25: 75, stirring and heating to the polymerization temperature of 100 ℃, reacting for 5 hours,

step S9, adding 100 parts by mass of mixed solution of acetone and hexane into the reaction kettle of S8 for extraction, wherein the mass ratio of acetone to hexane is 40: 60, a pressure-sensitive rubber adhesive was obtained.

In examples 1 to 8, the first rubber was natural rubber and the second rubber was styrene-butadiene rubber. When the performance test is carried out, the bonding objects are natural rubber sheets and styrene butadiene rubber sheets. The initial adhesion test method refers to a method B specified in GB/T4852-2002, the normal-temperature permanent adhesion test method refers to a method A specified in GB/T4851-2014, the peel strength refers to a method specified in GB/T2792, and the sample is prepared by peeling: the pressure-sensitive rubber adhesives obtained in examples 1 to 8 were each coated on 8 natural rubber sheets in an amount of 35g/m²And the upper part is pasted with a styrene butadiene rubber sheet, and the styrene butadiene rubber sheet is pressed and pasted. The storage time means good flowability in a certain time range. The test results are shown in Table 1.

TABLE 1 test tables for Properties of pressure-sensitive rubber adhesives obtained in examples 1 to 8

As can be seen from Table 1, the pressure-sensitive rubber adhesive obtained by the preparation method of the invention is applied to corresponding rubber material bonding objects, has the advantages of large initial adhesion, strong permanent adhesion, long storage period and the like, and can realize bonding by only slight pressing without heating during bonding, thereby being very convenient to use.

In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.