阅读说明：本技术 一种集成电路用防静电高强环保电缆及其生产工艺 (Anti-static high-strength environment-friendly cable for integrated circuit and production process thereof ) 是由 徐本国 徐云峰 李述云 袁绪武 陈旷元 于 2021-06-30 设计创作，主要内容包括：本发明公开了一种集成电路用防静电高强环保电缆及其生产工艺,涉及集成电路电缆领域。该集成电路用防静电高强环保电缆,从内到外依次由外包层、填充层、内衬层和缆芯组成,外包层、填充层和内衬层包括以下重量份数的原料：基材100份、二氧化硅气凝胶18-26份、环氧树脂15-21份、玻璃纤维9-11份、硬脂酸钙9-11份、氧化锌7-11份、二硼化钛6-10份、焦亚硫酸钠5-7份、重钙3.5-5.5份、改性剂3-5份和硅烷偶联剂1.8-2.6份。该集成电路用防静电高强环保电缆,兼具耐高温防静电以及耐弯折能力。该集成电路用防静电高强环保电缆的生产工艺,包括线缆制备、原料处理、线坯冷浸和套线填充四个步骤。该集成电路用防静电高强环保电缆的生产工艺,环保高效。(The invention discloses an anti-static high-strength environment-friendly cable for an integrated circuit and a production process thereof, and relates to the field of integrated circuit cables. This integrated circuit is with preventing static environmental protection cable that excels in comprises surrounding layer, filling layer, inner liner and cable core from inside to outside in proper order, and surrounding layer, filling layer and inner liner include the raw materials of following parts by weight: 100 parts of base material, 18-26 parts of silicon dioxide aerogel, 15-21 parts of epoxy resin, 9-11 parts of glass fiber, 9-11 parts of calcium stearate, 7-11 parts of zinc oxide, 6-10 parts of titanium diboride, 5-7 parts of sodium metabisulfite, 3.5-5.5 parts of heavy calcium carbonate, 3-5 parts of modifier and 1.8-2.6 parts of silane coupling agent. The anti-static high-strength environment-friendly cable for the integrated circuit has the capabilities of resisting high temperature, static electricity and bending. The production process of the anti-static high-strength environment-friendly cable for the integrated circuit comprises four steps of cable preparation, raw material treatment, wire blank cold soaking and wire sleeving filling. The production process of the anti-static high-strength environment-friendly cable for the integrated circuit is environment-friendly and efficient.)

1. The utility model provides an integrated circuit is with preventing static environmental protection cable that excels in which comprises surrounding layer, filling layer, inner liner and cable core from inside to outside in proper order, and surrounding layer, filling layer and inner liner include the raw materials of following parts by weight: 100 parts of base material, 18-26 parts of silicon dioxide aerogel, 15-21 parts of epoxy resin, 9-11 parts of glass fiber, 9-11 parts of calcium stearate, 7-11 parts of zinc oxide, 6-10 parts of titanium diboride, 5-7 parts of sodium metabisulfite, 3.5-5.5 parts of heavy calcium carbonate, 3-5 parts of modifier and 1.8-2.6 parts of silane coupling agent.

2. The antistatic high-strength environment-friendly cable for the integrated circuit according to claim 1, characterized in that: the base material in the raw materials is a composition of nitrile rubber and natural rubber, and the mixing ratio of the two components is 1-1.2: 3-3.2.

3. The antistatic high-strength environment-friendly cable for the integrated circuit according to claim 1, characterized in that: the modifier in the raw materials is formed by mixing an antioxidant, a plasticizer, a film-forming agent and montan wax, wherein the mixing ratio of the four components is 1-1.5: 1-1.5: 1-1.5: 1-1.5.

4. A production process of the antistatic high-strength environment-friendly cable for the integrated circuit according to any one of claims 1 to 3, which comprises the following steps:

step one, preparing a cable: carrying out banburying and extrusion treatment on the base materials in corresponding parts to obtain an outer cladding layer wire blank and an inner lining layer wire blank, wherein the thickness of the outer cladding layer wire blank is 1.6-2.2mm, the thickness of the inner lining layer wire blank is 1.2-1.6mm, the inner diameter of the outer cladding layer wire blank is 8.5-10.5mm, and the inner diameter of the inner lining layer is 5.8-6.6 mm;

step two, raw material treatment: putting the corresponding parts of epoxy resin, calcium stearate, sodium pyrosulfite and deionized water into a reaction kettle for processing, controlling a heating and stirring component in the reaction kettle to heat and stir the raw materials, controlling the heating temperature to be 120-plus-130 ℃, keeping the stirring speed constant at 300rpm, controlling the heating temperature to be increased to 150-plus-160 ℃ after heating and stirring for 1-2h, pouring the corresponding parts of zinc oxide, titanium diboride and heavy calcium into the reaction kettle, continuously heating and stirring for 0.5-1h to obtain a cable treatment liquid, taking the cable treatment liquid out of the reaction kettle, and cooling the cable treatment liquid for later use;

step three, cold soaking of the wire blank: pouring the cable treatment liquid into a water immersion pool, injecting water into the water immersion pool for dilution, sending the outer cladding line blank and the inner lining line blank into the water immersion pool together, ensuring that the treatment liquid in the water immersion pool completely covers the outer cladding line blank and the inner lining line blank, sealing the water immersion pool, cooling and pressurizing the inner part of the water immersion pool by utilizing refrigeration equipment and pressurization equipment, obtaining a cable outer cladding layer and an inner lining layer after cold immersion treatment for 6-8 hours, and drying the cable outer cladding layer and the inner lining layer;

step four, line sleeving filling: the cable core is inserted into the cable inner liner, the cable inner liner inserted with the cable is inserted into the cable outer cladding, the corresponding parts of silicon dioxide aerogel, glass fiber, modifier and deionized water are put into the homogenizer to be mixed, the homogenizing rate of the homogenizer is controlled to be 1300 plus 1700rpm, after 15-30min of homogenization, the corresponding parts of silane coupling agent are poured into the homogenizer, the homogenizing rate is controlled to be increased to 2100 plus 2300rpm, the homogenization is continued for 30min, a filling layer is obtained, the filling layer is filled between the cable inner liner and the cable outer cladding, a cable finished product is obtained, and the antistatic high-strength environment-friendly cable for the integrated circuit is obtained after coiling and packaging the cable finished product.

5. The production process of the antistatic high-strength environment-friendly cable for the integrated circuit according to claim 4, characterized in that: and in the second step, the addition amount of the deionized water is 2-3 times of the sum of the parts of the epoxy resin, the calcium stearate and the sodium metabisulfite.

6. The production process of the antistatic high-strength environment-friendly cable for the integrated circuit according to claim 4, characterized in that: and in the third step, the dilution ratio of the cable treatment fluid to water is 1: 90-98.

7. The production process of the antistatic high-strength environment-friendly cable for the integrated circuit according to claim 4, characterized in that: the temperature in the water leaching tank in the third step is controlled to be 3-7 ℃, and the air pressure in the water leaching tank is controlled to be 0.56-0.68 MPa.

8. The production process of the antistatic high-strength environment-friendly cable for the integrated circuit according to claim 4, characterized in that: and in the fourth step, the addition amount of the deionized water is 0.7-0.9 time of the sum of the parts of the silicon dioxide aerogel, the glass fiber and the modifier.

Technical Field

The invention relates to the technical field of integrated circuit cables, in particular to an anti-static high-strength environment-friendly cable for an integrated circuit and a production process thereof.

Background

The integrated circuit is usually located inside a machine room, the used cable wires are gathered inside equipment, high temperature can be generated during the operation of the equipment, the loss is caused to the cable, meanwhile, the static electricity also brings serious threat to the cable and the equipment due to the dry environment inside the equipment, therefore, the cable for the integrated circuit is harsher in high temperature resistance and static electricity resistance, the existing partial cable has good high temperature resistance and static electricity resistance, but poor in flexibility and bending resistance, for example, the high temperature resistance and static electricity resistance cable disclosed in the patent with the publication number of CN105733056A is easy to break after long-term use, poor in practicability and flexibility, too complicated in steps in the aspect of production technology, low in efficiency and not beneficial to popularization and use.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the anti-static high-strength environment-friendly cable for the integrated circuit and the production process thereof, the prepared cable has excellent high-temperature-resistant anti-static capability, and the problem that part of the cable is difficult to have the high-temperature-resistant anti-static capability and the bending-resistant capability is solved.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an integrated circuit is with preventing static environmental protection cable that excels in, comprises surrounding layer, filling layer, inner liner and cable core from inside to outside in proper order, and surrounding layer, filling layer and inner liner include the raw materials of following parts by weight: 100 parts of base material, 18-26 parts of silicon dioxide aerogel, 15-21 parts of epoxy resin, 9-11 parts of glass fiber, 9-11 parts of calcium stearate, 7-11 parts of zinc oxide, 6-10 parts of titanium diboride, 5-7 parts of sodium metabisulfite, 3.5-5.5 parts of heavy calcium carbonate, 3-5 parts of modifier and 1.8-2.6 parts of silane coupling agent.

Preferably, the base material in the raw materials is a composition of nitrile rubber and natural rubber, and the mixing ratio of the two components is 1-1.2: 3-3.2.

Preferably, the modifier in the raw materials is formed by mixing an antioxidant, a plasticizer, a film-forming agent and montan wax, and the mixing ratio of the four components is 1-1.5: 1-1.5: 1-1.5: 1-1.5.

A production process of an anti-static high-strength environment-friendly cable for an integrated circuit comprises the following steps:

step one, preparing a cable: carrying out banburying and extrusion treatment on the base materials in corresponding parts to obtain an outer cladding layer wire blank and an inner lining layer wire blank, wherein the thickness of the outer cladding layer wire blank is 1.6-2.2mm, the thickness of the inner lining layer wire blank is 1.2-1.6mm, the inner diameter of the outer cladding layer wire blank is 8.5-10.5mm, and the inner diameter of the inner lining layer is 5.8-6.6 mm;

step two, raw material treatment: putting the corresponding parts of epoxy resin, calcium stearate, sodium pyrosulfite and deionized water into a reaction kettle for processing, controlling a heating and stirring component in the reaction kettle to heat and stir the raw materials, controlling the heating temperature to be 120-plus-130 ℃, keeping the stirring speed constant at 300rpm, controlling the heating temperature to be increased to 150-plus-160 ℃ after heating and stirring for 1-2h, pouring the corresponding parts of zinc oxide, titanium diboride and heavy calcium into the reaction kettle, continuously heating and stirring for 0.5-1h to obtain a cable treatment liquid, taking the cable treatment liquid out of the reaction kettle, and cooling the cable treatment liquid for later use;

step three, cold soaking of the wire blank: pouring the cable treatment liquid into a water immersion pool, injecting water into the water immersion pool for dilution, sending the outer cladding line blank and the inner lining line blank into the water immersion pool together, ensuring that the treatment liquid in the water immersion pool completely covers the outer cladding line blank and the inner lining line blank, sealing the water immersion pool, cooling and pressurizing the inner part of the water immersion pool by utilizing refrigeration equipment and pressurization equipment, obtaining a cable outer cladding layer and an inner lining layer after cold immersion treatment for 6-8 hours, and drying the cable outer cladding layer and the inner lining layer;

step four, line sleeving filling: the cable core is inserted into the cable inner liner, the cable inner liner inserted with the cable is inserted into the cable outer cladding, the corresponding parts of silicon dioxide aerogel, glass fiber, modifier and deionized water are put into the homogenizer to be mixed, the homogenizing rate of the homogenizer is controlled to be 1300 plus 1700rpm, after 15-30min of homogenization, the corresponding parts of silane coupling agent are poured into the homogenizer, the homogenizing rate is controlled to be increased to 2100 plus 2300rpm, the homogenization is continued for 30min, a filling layer is obtained, the filling layer is filled between the cable inner liner and the cable outer cladding, a cable finished product is obtained, and the antistatic high-strength environment-friendly cable for the integrated circuit is obtained after coiling and packaging the cable finished product.

Preferably, the addition amount of the deionized water in the second step is 2-3 times of the sum of the parts of the epoxy resin, the calcium stearate and the sodium metabisulfite.

Preferably, the dilution ratio of the cable treatment fluid to water in the third step is 1: 90-98.

Preferably, in the third step, the temperature in the water leaching tank is controlled to be 3-7 ℃, and the air pressure in the water leaching tank is controlled to be 0.56-0.68MPa, so that harmful gas generated when the cable treatment fluid reacts with the cable blank is avoided, and further the negative influence of the harmful substance generated in the whole production process on the environment is reduced.

Preferably, the addition amount of the deionized water in the fourth step is 0.7-0.9 times of the sum of the parts of the silica aerogel, the glass fiber and the modifier, the silica aerogel can resist the high temperature of more than 1200 ℃, the strength of the cable is greatly improved, the loss and the safety threat of the high temperature accumulated and emitted by equipment in a machine room to the cable are weakened, the protection performance of the cable in a fire environment can be improved by matching with the flame retardance of the glass fiber, and the threat of line fire to a use scene is reduced.

(III) advantageous effects

Compared with the prior art, the invention provides an anti-static high-strength environment-friendly cable for an integrated circuit and a production process thereof, and the cable has the following beneficial effects:

1. the antistatic high-strength environment-friendly cable for the integrated circuit uses the mixture of the nitrile rubber and the natural rubber as the base material of the outer covering layer and the inner covering layer of the cable, so that the finished cable product has excellent high-temperature resistance of the nitrile rubber and elasticity of the natural rubber, and meanwhile, the inner covering layer and the cable core are protected by the filling layer made of the silica aerogel and the glass fiber, the silica aerogel can tolerate the high temperature of over 1200 ℃, the strength of the cable is greatly improved, the loss and safety threat of the high temperature accumulated and diffused by equipment in a machine room to the cable are weakened, the protection performance of the cable in a fire environment can be improved by matching with the flame retardance of the glass fiber, the threat of line fire to a use scene is reduced, the film forming agent and the montan wax added in the modifier can enable the filling layer to be tightly attached to the outer covering layer and the inner covering layer, and the stability of the internal structure of the cable is improved, and then improve the holistic intensity of cable, compare in ordinary cable, this cable has good high temperature resistant concurrently, prevents static and resistant ability of buckling, satisfies the operation requirement of different scenes, and the practicality is high, and application scope is wide.

2. The production process of the anti-static high-strength environment-friendly cable for the integrated circuit utilizes the cable treatment liquid to carry out pressurized soaking on the cable outer cladding line blank and the inner lining line blank, so that the cable treatment liquid can be fully contacted and reacted with the cable outer cladding line blank and the inner lining line blank, the modification effect and the quality are improved, the pressurized soaking is carried out in a low-temperature environment of 3-7 ℃, harmful gas generated when the cable treatment liquid is reacted with the cable line blank is avoided, further, the negative influence of the harmful substance generated in the whole production process on the environment is reduced, the environment friendliness and the efficiency are high, the processing conditions are adjusted according to the characteristics of raw materials in the production and processing process, the raw materials are fully mixed, the guarantee is provided for the cable characteristics, meanwhile, the outer cladding layer, the inner lining layer and the cable core are connected in a sleeving manner, the filling layer is processed in a pouring and filling manner, and compared with the production process of common cables, the process method shortens the whole preparation time, improves the production and processing efficiency, is simple in whole operation method, is scientific and efficient, and is beneficial to popularization and use.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

the utility model provides an integrated circuit is with preventing static environmental protection cable that excels in, comprises surrounding layer, filling layer, inner liner and cable core from inside to outside in proper order, and surrounding layer, filling layer and inner liner include the raw materials of following parts by weight: 100 parts of base material, 18 parts of silicon dioxide aerogel, 15 parts of epoxy resin, 9 parts of glass fiber, 9 parts of calcium stearate, 7 parts of zinc oxide, 6 parts of titanium diboride, 5 parts of sodium metabisulfite, 3.5 parts of triple superphosphate, 3 parts of modifier and 1.8 parts of silane coupling agent; the base material is a composition of nitrile rubber and natural rubber, and the mixing ratio of the two components is 1: 3; the modifier is formed by mixing an antioxidant, a plasticizer, a film-forming agent and montan wax, wherein the mixing ratio of the four components is 1: 1: 1: 1.

a production process of an anti-static high-strength environment-friendly cable for an integrated circuit comprises the following steps:

step one, preparing a cable: carrying out banburying and extrusion treatment on the base materials in corresponding parts to obtain an outer cladding layer wire blank and an inner lining layer wire blank, wherein the thickness of the outer cladding layer wire blank is 1.6mm, the thickness of the inner lining layer wire blank is 1.2mm, the inner diameter of the outer cladding layer wire blank is 8.5mm, and the inner diameter of the inner lining layer is 5.8 mm;

step two, raw material treatment: putting the corresponding parts of epoxy resin, calcium stearate, sodium pyrosulfite and deionized water into a reaction kettle together for treatment, wherein the addition amount of the deionized water is 2 times of the sum of the parts of the epoxy resin, the calcium stearate and the sodium pyrosulfite, controlling a heating and stirring component in the reaction kettle to heat and stir the raw materials, controlling the heating temperature to be 120 ℃, keeping the stirring speed constant at 300rpm, controlling the heating temperature to rise to 150 ℃ after heating and stirring for 1h, pouring the corresponding parts of zinc oxide, titanium diboride and heavy calcium into the reaction kettle together, continuously heating and stirring for 0.5h to obtain a cable treatment liquid, taking the cable treatment liquid out of the reaction kettle, and cooling the cable treatment liquid for later use;

step three, cold soaking of the wire blank: pouring the cable treatment fluid into a water immersion tank, injecting water into the water immersion tank again for dilution, wherein the dilution ratio of the cable treatment fluid to water is 1: 90, feeding the outer cladding layer wire blank and the inner lining layer wire blank into a water immersion pool together, ensuring that a treatment liquid in the water immersion pool completely covers the outer cladding layer wire blank and the inner lining layer wire blank, sealing the water immersion pool, cooling and pressurizing the inside of the water immersion pool by utilizing refrigeration equipment and pressurization equipment, controlling the temperature in the water immersion pool to be 3 ℃ and the air pressure in the water immersion pool to be 0.56MPa, performing cold immersion treatment for 6 hours to obtain a cable outer cladding layer and an inner lining layer, and drying the cable outer cladding layer and the inner lining layer;

step four, line sleeving filling: inserting a cable core into a cable inner liner layer, inserting the cable inner liner layer inserted with the cable into a cable outer cladding layer, putting the corresponding parts of silica aerogel, glass fiber, modifier and deionized water into a homogenizer for mixing, wherein the addition amount of the deionized water is 0.7 times of the sum of the parts of the silica aerogel, the glass fiber and the modifier, the homogenizing speed of the homogenizer is controlled to be 1300rpm, after homogenizing for 15min, pouring the corresponding parts of silane coupling agent into the homogenizer, controlling the speed of the homogenizer to be increased to 2100rpm, continuing homogenizing for 30min to obtain a filling layer, filling the filling layer between the cable inner liner layer and the cable outer cladding layer to obtain a cable finished product, and coiling and packaging the cable finished product to obtain the anti-static high-strength environment-friendly cable for the integrated circuit.

Example two:

the utility model provides an integrated circuit is with preventing static environmental protection cable that excels in, comprises surrounding layer, filling layer, inner liner and cable core from inside to outside in proper order, and surrounding layer, filling layer and inner liner include the raw materials of following parts by weight: 100 parts of base material, 22 parts of silicon dioxide aerogel, 18 parts of epoxy resin, 10 parts of glass fiber, 10 parts of calcium stearate, 9 parts of zinc oxide, 8 parts of titanium diboride, 6 parts of sodium metabisulfite, 4.5 parts of triple superphosphate, 4 parts of modifier and 2.2 parts of silane coupling agent; the base material is a composition of nitrile rubber and natural rubber, and the mixing ratio of the two components is 1: 3.1; the modifier is formed by mixing an antioxidant, a plasticizer, a film-forming agent and montan wax, wherein the mixing ratio of the four components is 1: 1.5: 1: 1.5.

a production process of an anti-static high-strength environment-friendly cable for an integrated circuit comprises the following steps:

step one, preparing a cable: carrying out banburying and extrusion treatment on the base materials in corresponding parts to obtain an outer cladding layer wire blank and an inner lining layer wire blank, wherein the thickness of the outer cladding layer wire blank is 1.9mm, the thickness of the inner lining layer wire blank is 1.4mm, the inner diameter of the outer cladding layer wire blank is 9.5mm, and the inner diameter of the inner lining layer is 6.2 mm;

step two, raw material treatment: putting the epoxy resin, the calcium stearate, the sodium pyrosulfite and the deionized water in corresponding parts into a reaction kettle for treatment, wherein the addition amount of the deionized water is 2.5 times of the sum of the parts of the epoxy resin, the calcium stearate and the sodium pyrosulfite, controlling a heating and stirring component in the reaction kettle to heat and stir the raw materials, controlling the heating temperature to be 125 ℃, keeping the stirring speed constant at 300rpm, controlling the heating temperature to be raised to 155 ℃ after heating and stirring for 1.5h, pouring the zinc oxide, the titanium diboride and the heavy calcium in corresponding parts into the reaction kettle, continuously heating and stirring for 0.75h to obtain a cable treatment liquid, taking the cable treatment liquid out of the reaction kettle, and cooling the cable treatment liquid for later use;

step three, cold soaking of the wire blank: pouring the cable treatment fluid into a water immersion tank, injecting water into the water immersion tank again for dilution, wherein the dilution ratio of the cable treatment fluid to water is 1: 94, feeding the outer cladding layer wire blank and the inner lining layer wire blank into a water immersion pool together, ensuring that a treatment liquid in the water immersion pool completely covers the outer cladding layer wire blank and the inner lining layer wire blank, sealing the water immersion pool, cooling and pressurizing the inside of the water immersion pool by utilizing refrigeration equipment and pressurization equipment, controlling the temperature in the water immersion pool to be 5 ℃ and the air pressure in the water immersion pool to be 0.62MPa, performing cold immersion treatment for 7 hours to obtain a cable outer cladding layer and an inner lining layer, and drying the cable outer cladding layer and the inner lining layer;

step four, line sleeving filling: inserting a cable core into a cable inner liner layer, inserting the cable inner liner layer inserted with the cable into a cable outer cladding layer, putting the corresponding parts of silica aerogel, glass fiber, modifier and deionized water into a homogenizer for mixing, wherein the addition amount of the deionized water is 0.8 times of the sum of the parts of the silica aerogel, the glass fiber and the modifier, the homogenizing speed of the homogenizer is controlled to be 1500rpm, after homogenizing for 22.5min, pouring the corresponding parts of silane coupling agent into the homogenizer, controlling the speed of the homogenizer to be increased to 2200rpm, continuing homogenizing for 30min to obtain a filling layer, filling the filling layer between the cable inner liner layer and the cable outer cladding layer to obtain a cable finished product, and coiling and packaging the cable finished product to obtain the anti-static high-strength environment-friendly cable for the integrated circuit.

Example three:

the utility model provides an integrated circuit is with preventing static environmental protection cable that excels in, comprises surrounding layer, filling layer, inner liner and cable core from inside to outside in proper order, and surrounding layer, filling layer and inner liner include the raw materials of following parts by weight: 100 parts of base material, 26 parts of silicon dioxide aerogel, 21 parts of epoxy resin, 11 parts of glass fiber, 11 parts of calcium stearate, 11 parts of zinc oxide, 10 parts of titanium diboride, 7 parts of sodium metabisulfite, 5.5 parts of triple superphosphate, 5 parts of modifier and 2.6 parts of silane coupling agent; the base material is a composition of nitrile rubber and natural rubber, and the mixing ratio of the two components is 1.2: 3.2; the modifier is formed by mixing an antioxidant, a plasticizer, a film-forming agent and montan wax, wherein the mixing ratio of the four components is 1.5: 1: 1.5: 1.

a production process of an anti-static high-strength environment-friendly cable for an integrated circuit comprises the following steps:

step one, preparing a cable: carrying out banburying and extrusion treatment on the base materials in corresponding parts to obtain an outer cladding layer wire blank and an inner lining layer wire blank, wherein the thickness of the outer cladding layer wire blank is 2.2mm, the thickness of the inner lining layer wire blank is 1.6mm, the inner diameter of the outer cladding layer wire blank is 10.5mm, and the inner diameter of the inner lining layer is 6.6 mm;

step two, raw material treatment: putting the corresponding parts of epoxy resin, calcium stearate, sodium pyrosulfite and deionized water into a reaction kettle together for treatment, wherein the addition amount of the deionized water is 3 times of the sum of the parts of the epoxy resin, the calcium stearate and the sodium pyrosulfite, controlling a heating and stirring component in the reaction kettle to heat and stir the raw materials, controlling the heating temperature to be 130 ℃, keeping the stirring speed constant at 300rpm, controlling the heating temperature to rise to 160 ℃ after heating and stirring for 2 hours, pouring the corresponding parts of zinc oxide, titanium diboride and heavy calcium into the reaction kettle together, continuously heating and stirring for 1 hour to obtain a cable treatment liquid, taking the cable treatment liquid out of the reaction kettle, and cooling the cable treatment liquid for later use;

step three, cold soaking of the wire blank: pouring the cable treatment fluid into a water immersion tank, injecting water into the water immersion tank again for dilution, wherein the dilution ratio of the cable treatment fluid to water is 1: 98, feeding the outer cladding layer wire blank and the inner lining layer wire blank into a water immersion pool together, ensuring that a treatment liquid in the water immersion pool completely covers the outer cladding layer wire blank and the inner lining layer wire blank, sealing the water immersion pool, cooling and pressurizing the inside of the water immersion pool by utilizing refrigeration equipment and pressurization equipment, controlling the temperature in the water immersion pool to be 7 ℃ and the air pressure in the water immersion pool to be 0.68MPa, performing cold immersion treatment for 8 hours to obtain a cable outer cladding layer and an inner lining layer, and drying the cable outer cladding layer and the inner lining layer;

step four, line sleeving filling: inserting a cable core into a cable inner liner layer, inserting the cable inner liner layer inserted with the cable into a cable outer cladding layer, putting the corresponding parts of silica aerogel, glass fiber, modifier and deionized water into a homogenizer for mixing, wherein the addition amount of the deionized water is 0.9 times of the sum of the parts of the silica aerogel, the glass fiber and the modifier, the homogenizing speed of the homogenizer is controlled to 1700rpm, pouring the corresponding parts of silane coupling agent into the homogenizer after homogenizing for 30min, controlling the speed of the homogenizer to be increased to 2300rpm, continuing homogenizing for 30min to obtain a filling layer, filling the filling layer between the cable inner liner layer and the cable outer cladding layer to obtain a cable finished product, and coiling and packaging the cable finished product to obtain the anti-static high-strength environment-friendly cable for the integrated circuit.

It can be seen from this that: the existing partial cable has good high-temperature-resistant and anti-static capabilities, but has poor flexibility and bending-resistant capabilities, is easy to break after being used for a long time, and has poor practicability and flexibility; the anti-static high-strength environment-friendly cable for the integrated circuit uses the mixture of the nitrile rubber and the natural rubber as the base material of the outer covering layer and the inner covering layer of the cable, so that the finished cable product has excellent high-temperature resistance of the nitrile rubber and elasticity of the natural rubber, and meanwhile, the inner covering layer and the cable core are protected by the filling layer made of the silica aerogel and the glass fiber, the silica aerogel can resist the high temperature of over 1200 ℃, the strength of the cable is greatly improved, and the loss and the safety threat of the cable caused by the high temperature gathered and emitted by equipment in a machine room are weakened; the production process has excessively complicated steps and low efficiency, and is not beneficial to popularization and use; this integrated circuit is with production technology of antistatic environmental protection cable that excels in, utilize cable treatment fluid to carry out the pressurization to soak cable surrounding layer line base and inner liner line base for cable treatment fluid can fully contact and react with cable surrounding layer line base and inner liner line base, modification effect and quality are promoted, the pressurization is soaked and is gone on under 3-7 ℃ of low temperature environment, avoid the harmful gas that produces when cable treatment fluid reacts with cable line base, and then reduce the harmful substance that produces in the whole production process and cause the negative effects to the environment, environmental protection is high-efficient.