Hot melt adhesive and process for its manufacture.

专利摘要:
A hot melt adhesive and a method for its production are disclosed, in particular a hot melt adhesive for gluing aluminum, stainless steel and other metallic materials and PVC plastics. First, the respective copolyamide of the nylon type is produced by combining certain raw materials and their percentages, and in combination with favorable binding properties of the copolyamide of the nylon type for metals and favorable binding properties of the perchlorethylene resin for PVC, a twin-screw extruder is used in order to obtain a sufficient melt mixture of the copolyamide from the Type nylon and the perchlorethylene resin under the synergistic effects of appropriate auxiliaries, so that the novel hot-melt adhesive obtained has favorable binding properties for both metals and PVC.
公开号:CH713470B1
申请号:CH00787/18
申请日:2016-12-16
公开日:2020-05-15
发明作者:Zeng Zuoxiang；Ma Xingquan；Li Zhelong
申请人:Kunshan tianyang hot melt adhesive co ltd；Shanghai tianyang hot melt adhesive co ltd；Univ East China Science & Tech；
IPC主号:

专利说明:

Technical field
The present invention relates to a novel hot melt adhesive and a method for its production, and in particular a hot melt adhesive for connecting aluminum, stainless steel and other metallic materials and PVC plastic.
State of the art
[0002] Polyvinyl chloride (PVC) is a widely used type of plastic. PVC production worldwide can reach 50 million tons per year, and the PVC waste generated each year can reach 10 million tons. Recycling them is not only an economic problem, but also an environmental problem. The bonding or connection of PVC waste and a metal sheet to form a plastic-steel composite material, in which the metal is used as a filling, can be used in many ways. If the adhesive for bonding is an environmentally friendly hot melt adhesive, the two problems mentioned above, which concern PVC waste, can be solved at the same time, which not only brings great economic advantages, but is also advantageous for environmental protection.
Currently, the bonding of plastic and metals is mainly carried out by direct bonding using liquid adhesives, such as epoxy adhesives and polyurethane adhesives, the liquid adhesives containing volatile substances that can easily lead to environmental pollution and are therefore not suitable for production. The hot melt adhesive is solvent-free, therefore environmentally friendly, suitable for production and advantageous for large-scale, fast operation of the factory.
The CN101792641A discloses an adhesive for an aluminum alloy and a PVC sheet, which is a fast-curing adhesive, the solvent drying process is shortened with this adhesive, but the storage time of the adhesive is shorter, which is unfavorable for practical applications is. The CN103059792B patent discloses a polyester elastomer hot melt adhesive for bonding a polar polymer and a metallic material and a manufacturing method therefor, but this hot melt adhesive has poor PVC bonding ability and poor water resistance. The CN103756577A patent discloses a PVC / metal-binding hot melt adhesive film and a manufacturing method therefor, but this hot-melt adhesive has only a short binding and fastening effect with metals, can easily detach from the metals and has an overall poor peel strength. The CN103045111B patent discloses a copolyester-based hot melt adhesive which can be used to bond metals and polar materials, but which has obvious shortcomings, and from the embodiments it is apparent that the application temperature of the hot melt adhesive disclosed in this invention is 138 ° C, the heat resistance PVC is bad, however, and bonding at the temperature of 138 ° C will most likely cause the PVC to deform.
In summary, it can be said that the adhesive properties of the existing hot melt adhesives for metals and PVC plastics do not meet the requirements in practice. The development of a new type of hot melt adhesive, which is used specifically for joining metals and PVC plastics, has become an urgent problem that has to be solved.
Summary of the invention
The present invention aims to solve the above technical problem and to provide a novel hot melt adhesive and a manufacturing method therefor, so that the new hot melt adhesive produced according to the invention meets the requirements for the bonding of metals and PVC plastics can meet.
The technical scheme of the present invention looks as follows: a novel hot melt adhesive is provided which, in mass percent, contains the following raw materials: 63% to 70% copolyamide of the nylon type, 15% to 20% perchlorethylene resin, 13% to 17% tackifier, 0.3% to 1% silane coupling agent and 0.5% to 1% plasticizer.
The above-mentioned nylon-type copolyamide is acted upon by copolymerizing the four main raw materials, which include caprolactam, nylon-66 salt (hexamethylene diamine adipate), nylon 612 salt (polyhexamethylene dodecanamide) and nylon 1010 salt (decamethylene diamine sebacate) suitable amounts of water and stearic acid, the molar percentages of the four main raw materials being 33% to 40%, 32% to 38%, 15% to 20% and 12% to 16%, and a molar ratio of stearic acid to caprolactam 0.02 : 1 to 0.03: 1.
The perchlorethylene resin has a chlorine content of 61% to 65%.
The tackifier is one selected from the group consisting of rosin, terpene resin and hydrogenated petroleum resin.
The silane coupling agent is one selected from the group consisting of vinyltrimethoxysilane, vinyltriethoxysilane, N- (β-aminoethyl) -γ-aminopropyltriethoxysilane and γ-aminopropyltrimethoxysilane.
[0012] The plasticizer is dioctyl adipate or dioctyl sebacate.
[0013] The manufacturing process for the novel hot melt adhesive comprises the following steps:<tb> 1) <SEP> Select raw materials in percent by mass according to the raw materials of the novel hot melt adhesive according to one of claims 1 to 5;<tb> 2) <SEP> Manufacture of nylon-type copolyamide;<tb> 3) <SEP> Add the nylon type copolyamide, perchlorethylene resin, tackifier, silane coupling agent and plasticizer produced into a mixer according to predetermined percentages, and stir evenly; and<tb> 4) <SEP> Add the mixture in a twin-screw extruder and carry out a melt extrusion at a temperature of 100 ° C to 130 ° C to obtain the novel hot melt adhesive.
After step 4) can be made from the new hot melt adhesive a hot melt film depending on the actual need. The manufacturing step consists of casting the novel hot melt adhesive using a casting machine or coating using a hot melt coater to produce the hot melt adhesive film, the hot melt adhesive film having a thickness of 0.1 mm.
In step 2), the process for producing a nylon-type copolyamide comprises the following steps in the order given:<tb> <SEP> 2a) proportional mixing of caprolactam, nylon 66 salt, nylon 612 salt and nylon 1010 salt and adding the mixture to a high pressure reaction vessel;<tb> <SEP> 2b) adding stearic acid and water to the high pressure reaction vessel and performing a nitrogen exchange and applying negative pressure to remove all air in the reaction vessel;<tb> <SEP> 2c) Feeding high purity nitrogen, heating to 230 ° C, maintaining the reaction for 3 hours under a pressure of 1.0 MPa to 1.2 MPa, reducing the pressure to a normal pressure, continuing to decrease the pressure to 0.05 MPa and performing drainage for 1 hour; and<tb> <SEP> 2d) Discharge to obtain the nylon-type copolyamide.
The produced copolyamide of the nylon type can be processed to other types, such as strips, granules, powder or the like, depending on the actual need.
In the steps of the process for producing the copolyamide of the nylon type, the amount of water which is added in step 2b) can be adjusted by itself depending on the actual requirements, as long as hydrolysis and ring opening of caprolactam are carried out.
The innovation of the present invention is that first the respective copolyamide of the nylon type is produced by combining certain raw materials and their percentages and in combination with favorable binding properties of the copolyamide of the nylon type for metals and favorable binding properties of the perchlorethylene resin for PVC Twin screw extruder is used to perform a sufficient melt mixture of the copolyamide of the nylon type and the perchlorethylene resin under the synergistic effects of appropriate auxiliaries, so that the novel hot melt adhesive obtained has favorable binding properties for both metals and PVC. Compared to today's solvent-based or reactive liquid adhesives, the novel hot melt adhesive produced according to the present invention can implement a fast bond between metals and PVC plastics using a laminating machine or hot press and thus has the advantage of a simple technique and a fast bond. In actual applications, however, the novel hot melt adhesive made according to the present invention can perform effective bonding at a temperature of about 80 ° C, whereby the novel hot melt adhesive has a lower application temperature, is easy to handle and cannot damage the PVC material.
Detailed description of preferred embodiments
The present invention is described below with reference to embodiments, but is not limited to these.
Embodiment 1
The preparation of the nylon-type copolyamide involves the following steps: mixing 90.44 g of caprolactam, 199.35 g of nylon 66 salt, 103.89 g of nylon 612 salt and 97.32 g of nylon 1010 -Salt and add the mixture to a 2 liter high pressure reaction kettle with a stirrer, thermometer and pressure gauge, add 4.836 g stearic acid and 70 g deionized water and perform nitrogen exchange and apply vacuum to remove all air in the reaction kettle of high purity nitrogen at 0.2 MPa, slowly warming up to 230 ° C, maintaining the reaction for 3 hours under a pressure of 1.0 MPa to 1.2 MPa, slowly reducing the pressure to normal pressure, continuing to reduce the pressure to 0, 05 MPa and performing drainage for 1 hour, unloading and granulating to obtain the granular copolyamide of the nylon (PA-1) type. According to the state standard GB / T3682-2000 it is proven that the DSC final melting point of PA-1 is 88 ° C and that the melt flow rate is 48 g / 10 min / 160 ° C / 2.16 kg.
The preparation of the novel hot melt adhesive involves adding 400 g of the copolyamide of the nylon (PA-1) type, 117.46 g of perchlorethylene resin, 107.94 g of rosin, 6.35 g of vinyl trimethoxysilane and 3.17 g of dioctyl adipate in one High speed mixer and uniform mixing, adding the mixture to a TE35 twin screw extruder and controlling the temperature of a first section of the extruder to 100 ° C, the temperature of a second section to 110 ° C, the temperature of a third to fifth section to 120 ° C, the Temperature of a sixth area to 115 ° C, the mold temperature to 100 ° C and the screw speed to 30 rpm, and unloading and performing pouring and cooling to produce the 0.10 mm thick hot melt film. The adhesive film sample is marked A1.
Embodiment 2
The preparation of copolyamide of the nylon type involves the following steps: mixing 106.4 g of caprolactam, 170.5 g of nylon 66 salt, 107.35 g of nylon 612 salt and 89.83 g of nylon 1010 Salt and adding the mixture in a 2 l high pressure reaction kettle with a stirrer, a thermometer and a pressure gauge; Adding 4.552 g of stearic acid and 80 g of deionized water and performing a nitrogen exchange and applying vacuum to remove all air in the reaction vessel; Feeding 0.2 MPa of high purity nitrogen, slowly warming to 230 ° C, maintaining the reaction for 3 hours under a pressure of 1.0 MPa to 1.2 MPa, slowly reducing the pressure to normal pressure, continuing to reduce the pressure to 0, 05 MPa and dehydration for 1 hour and unloading and granulating to obtain the granular copolyamide of the nylon (PA-2) type. According to state standard GB / T3682-2000 it is proven that the DSC final melting point of PA-2 is 91 ° C and that the melt flow rate is 43.8 g / 10 min / 160 ° C / 2.16 kg.
The preparation of the novel hot melt adhesive includes: adding 400 g of the copolyamide of the nylon (PA-2) type, 88.24 g perchlorethylene resin, 94.12 g terpene resin, 2.94 g vinyltriethoxysilane and 2.94 g dioctyl adipate in one High speed mixer and uniform mixing, adding the mixture to a TE35 twin screw extruder and performing the melt mixing, as well as unloading and pouring and cooling to make the 0.10mm thick hot melt film. The adhesive film sample is marked with A2.
Embodiment 3
The preparation of nylon-type copolyamide involves the following steps: mixing 87.78 g of caprolactam, 173.12 g of nylon 66 salt, 138.52 g of nylon 612 salt and 104.8 g of nylon 1010 Salt and adding the mixture in a 2 l high pressure reaction kettle with a stirrer, a thermometer and a pressure gauge; Add 5.633 g of stearic acid and 60 g of deionized water and carry out a nitrogen exchange and apply vacuum to remove all air in the reaction vessel, feed 0.2 MPa of high-purity nitrogen, slowly warm to 230 ° C, maintain the reaction for 3 hours a pressure of 1.0 MPa to 1.2 MPa, slowly reducing the pressure to normal pressure, continuing to decrease the pressure to 0.05 MPa, and performing drainage for 1 hour, and unloading and granulating to obtain the nylon (PA.) granular copolyamide -3) to get. According to state standard GB / T3682-2000 it is proven that the DSC final melting point of PA-3 is 85 ° C and that the melt flow rate is 43.8 g / 10 min / 160 ° C / 2.16 kg.
The preparation of the novel hot melt adhesive includes: adding 400 g of the copolyamide of the nylon (PA-3) type, 89.71 g of perchlorethylene resin, 74.29 g of terpene resin, 1.71 g of γ-aminopropyltrimethoxysilane and 5.71 g Place dioctyl sebacate in a high speed mixer and mix evenly, add the mixture to a TE35 twin screw extruder and melt mix, unload and pour and cool to produce the 0.10mm hot melt film. The adhesive film sample is marked with A3.
Embodiment 4
The preparation of the nylon-type copolyamide involves the following steps: mixing 97.09 g of caprolactam, 167.87 g of nylon 66 salt, 107.35 g of nylon 612 salt and 119.78 g of nylon 1010 -Salt and add the mixture to a 2 liter high pressure reaction kettle with a stirrer, thermometer and pressure gauge, add 4.776 g stearic acid and 70 g deionized water and perform nitrogen exchange and apply vacuum to remove all air in the reaction kettle of high purity nitrogen at 0.2 MPa, slowly warming up to 230 ° C, maintaining the reaction for 3 hours under a pressure of 1.0 MPa to 1.2 MPa, slowly reducing the pressure to normal pressure, continuing to reduce the pressure to 0, 05 MPa and dehydration for 1 hour and unloading and granulating to obtain the granular copolyamide of the nylon (PA-4) type. According to the state standard GB / T3682-2000 it is proven that the DSC final melting point of PA-4 is 83 ° C and that the melt flow rate is 53.2 g / 10 min / 160 ° C / 2.16 kg.
The preparation of the novel hot melt adhesive includes: adding 400 g of the copolyamide of the nylon (PA-4) type, 125 g of perchlorethylene resin, 90 g of hydrogenated petroleum resin, 6.25 g of N- (β-aminoethyl) -γ-aminopropyltriethoxysilane and 3.75 g of dioctyl sebacate in a high speed mixer and evenly mixing, adding the mixture to a TE35 twin screw extruder and performing melt mixing, unloading and pouring and cooling to prepare the 0.10 mm thick hot melt film. The adhesive film sample is marked with A4.
Performance test
The 180 ° peel strength of each adhesive sheet sample is tested after each adhesive sheet sample has been used to bond PVC / aluminum and PVC / stainless steel by hot pressing for 20 seconds under the conditions of 80 ° C and 0.3 MPa. For the test procedure, reference is made to GB / T2790-1995 and for the test results to Table 1.
Table 1 Adhesive strength of the hot-melt film for PVC / metal obtained in the respective embodiment.<tb> Embodiment 1 <SEP> 89 <SEP> 97<tb> Embodiment 2 <SEP> 90 <SEP> 99<tb> Embodiment 3 <SEP> 101 <SEP> 108<tb> Embodiment 4 <SEP> 94 <SEP> 101
The table above shows that the novel hot-melt adhesive produced according to the present invention has good adhesive strength for metals and PVC. In practical applications, the hot pressing temperature is lower (80 ° C) and cannot damage the PVC material and the hot pressing time is shorter (20 seconds), which is favorable for construction and handling.

权利要求:
Claims (9)
[1]
1. Hot melt adhesive obtainable by mixing starting materials, in percent by mass:63% to 70% copolyamide;15% to 20% perchlorethylene resin;13% to 17% tackifier;0.3% to 1% silane coupling agent and0.5% to 1% plasticizer;wherein the copolyamide is obtained by copolymerizing the four main raw materials, the caprolactam, poly (hexamethylenediamine adpinic acid) salt, poly (dodecanedioic acid 1,6-hexanediamine) salt and poly (1,10-decanedioic acid-1,10-decamethylenediamine) salt comprise, under the action of suitable amounts of water and stearic acid; the four main raw materials are 33% to 40%, 32% to 38%, 15% to 20% and 12% to 16% in mole percent; and the molar ratio of stearic acid to caprolactam is 0.02: 1 to 0.03: 1.
[2]
2. Hot melt adhesive according to claim 1, wherein the perchlorethylene resin has a chlorine content of 61% to 65%.
[3]
3. Hot melt adhesive according to claim 1, wherein the tackifier is one selected from the group consisting of rosin, terpene resin and hydrogenated petroleum resin.
[4]
4. hot melt adhesive according to claim 1, wherein the silane coupling agent is one selected from the group consisting of vinyltrimethoxysilane, vinyltriethoxysilane, N- (β-aminoethyl) -γ-aminopropyltriethoxysilane and γ-aminopropyltrimethoxysilane.
[5]
5. Hot melt adhesive according to claim 1, wherein the plasticizer is dioctyl adipate or dioctyl sebacate.
[6]
6. A method for producing the hot melt adhesive according to any one of claims 1 to 5, comprising the following steps:I) selection of raw materials in mass percent according to the raw materials of the hot melt adhesive according to one of claims 1 to 5;II) Preparation of copolyamide, the copolyamide by copolymerization of four raw materials including caprolactam, poly (hexamethylenediamine adpinic acid) salt, poly (dodecanedioic acid 1,6-hexanediamine) salt and poly (1,10-decanedioic acid-1,10 -decamethylenediamine) salt, under the action of suitable amounts of water and stearic acid; the four main raw materials are 33% to 40%, 32% to 38%, 15% to 20% and 12% to 16% in mole percent; and the molar ratio of stearic acid to caprolactam is 0.02: 1 to 0.03: 1;III) Adding the copolyamide, the perchlorethylene resin, the tackifier, the silane coupling agent and the plasticizer into a mixer and stirring uniformly, the percentage by mass of the copolyamide, perchlorethylene resin, tackifier, silane coupling agent and plasticizer being 63% to 70%, 15% to 20%, 13% to 17%, 0.3% to 1% and 0.5% to 1%; andIV) Add the mixture to a twin-screw extruder and perform melt extrusion at a temperature of 100 ° C to 130 ° C to obtain the hot melt adhesive.
[7]
7. The method for producing the hot melt adhesive according to claim 6, wherein the method for producing copolyamide in step II) comprises the following steps in the order given:IIa) proportional mixing of caprolactam, poly (hexamethylenediamine-adpinic acid) salt, poly (dodecanedioic acid-1,6-hexanediamine) salt and poly (1,10-decanedioic acid-1,10-decamethylenediamine) salt and adding the mixture in a high pressure reaction vessel;IIb) adding stearic acid and water to the high pressure reaction vessel and performing nitrogen exchange and applying vacuum to remove all air in the reaction vessel;IIc) Feeding of high purity nitrogen, heating to 230 ° C, maintaining the reaction for 3 hours under a pressure of 1.0 MPa to 1.2 MPa, reducing the pressure to normal pressure, continuing to decrease the pressure to 0.05 MPa and performing a drain for 1 hour; andIId) discharge to obtain the copolyamide.
[8]
8. A method of making a hot melt adhesive sheet comprising:I) producing a hot melt adhesive according to the method of claim 6II) Casting the hot melt adhesive obtained by using a casting machine or performing coating using a hot melt coater to produce a hot melt adhesive sheet.
[9]
9. hot melt adhesive film produced by the method according to claim 8, wherein the hot melt adhesive film has a thickness of 0.1 mm.

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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CN201510960198.2A|CN105349088B|2015-12-21|2015-12-21|A kind of PUR and preparation method thereof|

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PCT/CN2016/110282|WO2017107859A1|2015-12-21|2016-12-16|Novel hot-melt adhesive and preparation method therefor|

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