CN107043255A - The manufacturing process of fin - Google Patents

Abstract

A kind of manufacturing process of fin of the present invention, including：Graphite modified dose is respectively coated on the upper and lower surface of Kapton, the Kapton after processing is made up of Kapton, the first coat and the second coat；The graphite modified dose of component by following parts by weight is constituted：Benzophenone tetracarboxylic dianhydride, pyromellitic acid anhydride, MDA, dimethylformamide, N methyl pyrrolidones, ethylene glycol, dimethyl silicone polymer, dibutyl phthalate；Kapton after processing is risen to after 1200 DEG C to the carbonized film for obtaining pre-burned from room temperature；Carbonized film is warming up to after 2850 DEG C ~ 2950 DEG C and cooled down, so as to obtain the graphite film of main firing.While the present invention realizes the uniformity of heat conductivility, heat dispersion stability, the reliability of product are improved.

Description

The manufacturing process of fin

Technical field

The present invention relates to a kind of manufacturing process of fin, belong to graphite flake technical field.

Background technology

As modern microelectronic technology high-speed develops, electronic equipment（Such as notebook computer, mobile phone, tablet personal computer）Increasingly Become ultra-thin, light, this structure causes electronic equipment internal power density to significantly improve, the heat produced by operation is difficult Discharge, be easy to rapid accumulation and form high temperature.On the other hand, high temperature can reduce the performance of electronic equipment, reliability and use the longevity Life.Therefore, Current electronic industry proposes higher and higher requirement for the heat sink material as heat control system core component, urgently Need a kind of high-efficiency heat conduction, light material to transfer heat away from rapidly, ensure that electronic equipment is normally run.

Kapton is mostly used for flexible PCB in the prior art, although has and is obtained using polyimide film sintered Graphite heat radiation fin, so as to be covered on thermal source, but be constrained to Kapton product quality and performances the good and the bad not Together, the performance of the two-sided pad pasting heat dispersion of radiating has been had influence on, there is following technical problem：Radiating is uneven, adhesive tape easily occurs Hot-spot, the heat dispersion that improves product is unstable, reliability performance is poor, is unfavorable for product quality management control, influences product Competitiveness.

The content of the invention

Objects of the present invention are to provide a kind of manufacturing process of fin, and the fin that the manufacturing process is obtained is vertical Direction and horizontal direction improve heat conductivility, it is to avoid hot-spot, while realizing the uniformity of heat conductivility, improve Heat dispersion stability, the reliability of product, greatly reduces the cost of product.

To achieve the above object of the invention, the technical solution adopted by the present invention is：A kind of manufacturing process of fin, the stone Black fin is obtained by following steps：

Step 1: be respectively coated on the upper and lower surface of Kapton graphite modified dose handled after polyimides it is thin Film, the Kapton after processing is made up of Kapton, the first coat and the second coat；

The graphite modified dose of component by following parts by weight is constituted：

22 parts of benzophenone tetracarboxylic dianhydride,

15 parts of pyromellitic acid anhydride,

20 parts of MDA,

21 parts of dimethylformamide,

8.5 parts of 1-METHYLPYRROLIDONE,

2.2 parts of ethylene glycol,

2.4 parts of dimethyl silicone polymer,

0.8 part of dibutyl phthalate；

Step 2: by the Kapton after processing under inert gas shielding, 240 DEG C ~ 260 DEG C, insulation are risen to from room temperature After rise to 480 DEG C ~ 500 DEG C, 780 DEG C ~ 820 DEG C are warming up to after insulation again, risen to after insulation after 1200 DEG C cool down, so as to obtain pre- The carbonized film of firing；

Step 3: carbonized film is warming up into 2350 DEG C ~ 2450 DEG C, it is incubated, then is warming up to cooling after 2850 DEG C ~ 2950 DEG C, so that Obtain the graphite film of main firing；

Step 4: then the graphite film of the main firing obtained by step 3 is carried out calendering to obtain the heat conduction graphite patch.

Because above-mentioned technical proposal is used, the present invention has following advantages and effect compared with prior art：

1st, graphite linings are coated with one layer graphite modified dose by upper and lower surface in the manufacturing process of fin of the present invention, its structure Kapton is prepared from, and is improved in heat conductivility both vertically and horizontally, it is to avoid adhesive tape hot-spot, real The uniformity of adhesive tape heat conductivility is showed；Next, it is located at graphite modified dose of Kapton surface by benzophenone four Acid dianhydride, pyromellitic acid anhydride, MDA, dimethylformamide, ethylene glycol, dimethyl silicone polymer composition, It is coated on Kapton, is filled with the pin hole in heating process, improves crystallinity simultaneously, also overcome thermal contraction It is uneven caused by big, improve graphite linings biaxial tension performance.

2nd, the manufacturing process of fin of the present invention, it is located at graphite modified dose of Kapton surface by benzophenone It is tetracarboxylic dianhydride, pyromellitic acid anhydride, MDA, dimethylformamide, 1-METHYLPYRROLIDONE, ethylene glycol, poly- Dimethyl siloxane is constituted, and reduces azeotropic point using dimethylformamide, 1-METHYLPYRROLIDONE and smooth boiling point area, Improve the flatness and pliability of final products film forming；；Secondly, dimethylformamide, 1-METHYLPYRROLIDONE and adjacent benzene two Formic acid dibutyl ester Kapton surface, prevents bubble from producing, and is more beneficial for the small pin hole of filled polyimide film, changes It has been apt to the uniformity of radiating paster heat conductivility.

3rd, the manufacturing process of fin of the present invention, calendaring processes are increased between the carbonized film and graphitization of pre-burned, with And re-form and roll again after heat conduction graphite patch, it is to avoid the volume contraction in fold and graphitization sintering process, improve Compactness and crystallinity, are further increased in heat conductivility both vertically and horizontally.

Embodiment

With reference to embodiment, the invention will be further described：

Embodiment：A kind of manufacturing process of fin, the graphite heat radiation fin is obtained by following steps：

Step 1: be respectively coated on the upper and lower surface of Kapton graphite modified dose handled after polyimides it is thin Film, the Kapton after processing is made up of Kapton, the first coat and the second coat；

The graphite modified dose of component by following parts by weight is constituted：

22 parts of benzophenone tetracarboxylic dianhydride,

15 parts of pyromellitic acid anhydride,

20 parts of MDA,

21 parts of dimethylformamide,

8.5 parts of 1-METHYLPYRROLIDONE,

2.2 parts of ethylene glycol,

2.4 parts of dimethyl silicone polymer,

0.8 part of dibutyl phthalate；

Step 2: by the Kapton after processing under inert gas shielding, 240 DEG C ~ 260 DEG C, insulation are risen to from room temperature After rise to 480 DEG C ~ 500 DEG C, 780 DEG C ~ 820 DEG C are warming up to after insulation again, risen to after insulation after 1200 DEG C cool down, so as to obtain pre- The carbonized film of firing；

Step 3: carbonized film is warming up into 2350 DEG C ~ 2450 DEG C, it is incubated, then is warming up to cooling after 2850 DEG C ~ 2950 DEG C, so that Obtain the graphite film of main firing；

Step 4: then the graphite film of the main firing obtained by step 3 is carried out calendering to obtain the heat conduction graphite patch.

Above-mentioned graphite modified dose of viscosity is 30000 ~ 48000CP.

A kind of manufacturing process of above-mentioned graphite heat radiation fin, comprises the following steps：

Step 1: be respectively coated on the upper and lower surface of Kapton graphite modified dose handled after polyimides it is thin Film, the Kapton after processing is made up of Kapton, the first coat and the second coat, described graphite modified The viscosity of agent is 30000 ~ 48000CP；

The graphite modified dose of component by following parts by weight is constituted：

22 parts of benzophenone tetracarboxylic dianhydride,

15 parts of pyromellitic acid anhydride,

20 parts of MDA,

21 parts of dimethylformamide,

8.5 parts of 1-METHYLPYRROLIDONE,

2.2 parts of ethylene glycol,

2.4 parts of dimethyl silicone polymer,

0.8 part of dibutyl phthalate；

Step 2: by the Kapton after processing under inert gas shielding, 240 DEG C ~ 260 DEG C, insulation are risen to from room temperature After rise to 480 DEG C ~ 500 DEG C, 780 DEG C ~ 820 DEG C are warming up to after insulation again, risen to after insulation after 1200 DEG C cool down, so as to obtain pre- The carbonized film of firing；

Step 3: carbonized film is warming up into 2350 DEG C ~ 2450 DEG C, it is incubated, then is warming up to cooling after 2850 DEG C ~ 2950 DEG C, so that Obtain the graphite film of main firing；

Step 4: then the graphite film of the main firing obtained by step 3 is carried out calendering to obtain the heat conduction graphite patch.

During using above-mentioned manufacturing process, obtain and be coated with for graphite linings in graphite heat radiation fin its structure by upper and lower surface One layer graphite modified dose of Kapton is prepared from, and is improved in heat conductivility both vertically and horizontally, is kept away Exempt from adhesive tape hot-spot, realize the uniformity of adhesive tape heat conductivility；Secondly, its graphite for being located at Kapton surface changes Property agent is by benzophenone tetracarboxylic dianhydride, pyromellitic acid anhydride, MDA, dimethylformamide, ethylene glycol, poly- two Methylsiloxane is constituted, and is coated on Kapton, is filled with the pin hole in heating process, improves crystallinity simultaneously, Also overcome thermal contraction excessive caused uneven, improve graphite linings biaxial tension performance, also reduce azeotropic point and put down Sliding boiling point area, improves the flatness and pliability of final products film forming；Again, there is graphite to change on Kapton surface Property agent, improve graphite linings and heat conduction adhesive layer heat conductivility in two-sided pad pasting, and the pre-burned is rolled using calender Carbonized film, it is to avoid the volume contraction in fold and graphitization sintering process, improves compactness and crystallinity, further improves In heat conductivility both vertically and horizontally.

The above embodiments merely illustrate the technical concept and features of the present invention, and its object is to allow person skilled in the art Scholar can understand present disclosure and implement according to this, and it is not intended to limit the scope of the present invention.It is all according to the present invention The equivalent change or modification that Spirit Essence is made, should all be included within the scope of the present invention.

Claims (1)

1. a kind of manufacturing process of fin, it is characterised in that：The fin is obtained by following steps：

Step 1: be respectively coated on the upper and lower surface of Kapton graphite modified dose handled after polyimides it is thin Film, the Kapton after processing is made up of Kapton, the first coat and the second coat；

The graphite modified dose of component by following parts by weight is constituted：

22 parts of benzophenone tetracarboxylic dianhydride,

15 parts of pyromellitic acid anhydride,

20 parts of MDA,

21 parts of dimethylformamide,

8.5 parts of 1-METHYLPYRROLIDONE,

2.2 parts of ethylene glycol,

2.4 parts of dimethyl silicone polymer,

0.8 part of dibutyl phthalate；

Step 2: by the Kapton after processing under inert gas shielding, 240 DEG C ~ 260 DEG C, insulation are risen to from room temperature After rise to 480 DEG C ~ 500 DEG C, 780 DEG C ~ 820 DEG C are warming up to after insulation again, risen to after insulation after 1200 DEG C cool down, so as to obtain pre- The carbonized film of firing；

Step 3: carbonized film is warming up into 2350 DEG C ~ 2450 DEG C, it is incubated, then is warming up to cooling after 2850 DEG C ~ 2950 DEG C, so that Obtain the graphite film of main firing；

Step 4: then the graphite film of the main firing obtained by step 3 is carried out calendering to obtain the heat conduction graphite patch.