WO2010007804A1 - Heat conductive oil composition, heat dissipating agent, and electronic device - Google Patents

Abstract

Disclosed is a heat conductive oil composition composed of (A) a heat-resistant organic oil, (B) heat conductive fine particles, and (C) a polyvalent metal salt of a higher fatty acid having 12 or more carbon atoms. Also disclosed is a heat conductive oil composition containing (D) a higher fatty acid having 12 or more carbon atoms and (E) a polyglycerol higher fatty acid ester (wherein the higher fatty acid has 12 or more carbon atoms) in addition to the above-mentioned components (A)-(C), or a heat conductive oil composition composed of the components (D) and (E). Further disclosed are a heat dissipating agent composed of one of the heat conductive oil compositions, and an electronic device wherein a heated electronic component is in contact with a heat dissipating member through the heat dissipating agent.

Description

 Conductive oil, heat dissipation agent and electronic equipment

 000

 Even if it contains a large amount of conductive fine particles, it relates to a heat conduction oil, a heat radiation agent, and a heat treatment device that are excellent in heat conductivity but have a large property.

000 2

 Thermally conductive heat conductive fine particles composed mainly of heat conductive fine particles, sensors, resistors, diodes, memory, operation (PU), etc. Used as a heat agent to dissipate the heat generated by the circuit and to the outside.・ The problem of increased heat generation due to chip performance has been increasing, and as a result, there has been an increasing demand for increasing the conduction of heat agents. In order to increase conduction, it is necessary to increase the amount of heat conductive fine particles.However, the amount of heat radiation agent increases, or the degree of dissipation decreases and the workability decreases. It becomes difficult, or there are problems with thin films. 000 3

 279501 discloses a round consisting of a chot (e.g., stearium, 2-xiatium) agent, but only mentions that heat conduction can be added.

 004

 002 20 483 explains the conduction oi of. In addition, in order to increase the content of the aluminum nitride powder, there is a powder containing the aluminum powder surface-treated with sila, but it has a sufficient effect.

In 20002 01483, a conductive gas containing a non-ionic system (for example, boroxicity, xenster, and taste) is proposed, but it has a strong dynamism. There is a problem that the disparity is not minute. In addition, it is described that it can be further mixed with salt and other additives, but there is no further explanation.

 000 5

 In 200037083, a heat-conducting filler dispersant (conductivity, for example, a conductive gel containing a glycester or a polyglycerist, is proposed, but there is a problem in coating with a die.

 006

 In 20006437, a conductive window containing three types of heat conduction (e) grites (eg, gsennoite) has been proposed, but the amount of heat conduction fine particles is large, and it exhibits a die. Therefore, there is a theme of slippery cloth. Technical literature 007

 : 27950

 2 200 2 20 483

 3 2000 3 2708 3

 4 2006 2 0437 Report Invented

 Issues that Ming tries to solve

 O008

Developed a conductive oy that does not have the above-mentioned issues, and even if it contains a large amount of conductive fine particles, it has a large potential, has excellent pouring property, and has excellent heat conduction and heat resistance. Invented a heat release agent. It has excellent injectability, light conductivity, excellent heat conduction, heat resistance, heat resistance, heat dissipation agent, its composition, and the use of heat dissipation agent to provide child devices. . To solve the problem 09

this ,

 A heat conduction oil characterized by consisting of (B) conductive fine particles and (0) a high salt of 2 atomic atoms.

 Conductive oil according to claim 2, characterized in that the component (0) is an unsaturated higher grade, and the polyvalent metal is a metal having 2 or 3 or 4 values.

 3. Conductive oil according to claim 2, which is an unsaturated higher oleic acid, and the polyvalent genus is aluminum or titanium.

 4, the component () content is 20 to 50, the component (B) content is 80 to 50 (measurement 0), the component (0) content is 0% of the component (B) content The conductive oil according to claim 1, wherein the conductive oil is from 05 to 50. Consists of.

 00

5, () Thermal Oy, (B) Conductive Fine Particles, () High on Element Number 2, (D) High on Element Number 2, (E Glyceriste (however, higher element atom A heat conduction oil characterized by the fact that the number is 2), or) a high (E) polyglycester over 2 atoms (where the higher number of elementary atoms is over 2).

 6. The conductive oy according to claim 5, wherein the conductive oy is a high-grade unsaturated high-grade metal having a multivalent genus of 2, 3 or 4 tetravalent metal.

 7. Conductive oil according to claim 6, characterized in that it is an unsaturated higher oleic acid, and the polyvalent genus is aluminum or titanium.

 The amount of component () of 8 is 20 to 50, the amount of component (B is 80 to 50 (weighing 00)) (the amount of 0 is the amount of component 0)・ It is 0 and the content of (D), the content of component (E), or the content of component () component (E) is 0 ・ 05 ～ 5 ・ 0 of the content of component B). A conductive oil according to claim 5, which is characterized by the following.

 00

The heat-dissipating agent according to claim 9, wherein the heat-dissipating agent is on the heat conduction W ·.

An electronic device characterized in that zero electronic products are in contact with heat dissipation through the heat agent listed in 9. It becomes. Light

 00

 The bright conductive oils and heat agents are very large even when they contain a large amount of conductive fine particles, have excellent injection properties, and have excellent heat conduction and heat resistance.

 Since the photonic device has good heat dissipation performance, that is, it has excellent heat dissipation performance, it can exhibit an excellent electronic device function and has a feature of excellent reliability. A simple description of the surface

 00

 FIG. Circuit

 Do it. To carry out Ming

 00

 It is characterized by comprising: bright conductive oy, thermal oy, (B) conductive fine particles, and () high salt with 2 atomic atoms.

(Oy is (B) conductive fine particles, and has the effect of making fine particles (B is stood, cum or crisp.

 00

(Thermal oyster, hydrogen hydride oyster, te oyster oyster, cabo ste oyster oyster, hin oyster oyster, etc.

 It is desirable to be a fin. Since conductive oil is used in contact with a heat source for a long time, organic oil needs heat resistance. If the thermal oyster has hydrogen fluoride, it will typically have a hydride, especially the group above 5, preferably 0, more preferably 40. Te-type oys include fteo oy and aki teoi with an aki group bonded to the pho group. Physically

Te, Tetrate, Toughte, Akiji Examples are Te, Noakitrite, Noakitetrate, Diakitetrate. Achi is exemplified by meth, chi, chi, octyl groups.

 00

 Te-type oys are desirable to be in the form of room temperature, 25-25.

 0-5C 5-4500 2

 S. The boste oyster includes boric acid aster, boric acid arachiaster, boric acid noste, boric acid aquinostere and the like. For this purpose, there are benzoic acid, achizen carbo, tetrameric, and teic acid. Examples of aki include a meth, cis, cis, octyl group. A for Aki Ste

 Examples are chia, chia, kuxano, and aqua. An example of Arakiste for Arakiste is illustrated. P methino and no are exemplified as aquino for axe.

 It is desirable that Bonste oysters are in the form at room temperature.

 Usually 4 to 4500 at 40 C 2

 S.

 00

Boi is obtained by polymerizing

 It is an oy in the middle position, and it may have an Aki group. It is desirable that this is in the form of a normal temperature, and is usually 5 to 4502 S at 25 to 4 ° C.

 0020

Shioi is an organic bond with silicic and oxygen atoms, an organic bond with silicic atoms, and a thermal bond at the end. Thin oysters that are more heat-resistant than general oys may not contain fragrances, and examples thereof include trimethyacrylomethyloxane (the number of carbon atoms in the aki group is 30). In order to increase the heat resistance, the methy methicine oy including the tomb, or the methicine cynoy, is exemplified. It is preferred that all groups are under 5. Aki and outside may also be included. For these

 And pakiaki, mecaptoaki and akiki groups. Aki and hydroxyl groups may be bonded to the ends.

If the thin oil contains a component, when the heat conduction oil is heated, the product and the electronic device and their surroundings may be contaminated by the heat and lid, so a low share is preferred. It is desirable that the temperature is 0 · 5 or less when heated at 50 ° in a hot air ring, and 0 · or less.

The soil is preferably in the form of a normal temperature, and is usually 0 O O O Pa / S at 25oC.

 Thermal oil can be used 2 times.

 002

 The amount of () thermal oy in the conductive oy is too large, the thermal oi conductivity decreases, and if it is too small, it can not be shifted to the thermal oi, cum, and grease. The thermal oil is preferably 20 to 50, and more preferably 30 to 40.

 002

(B) Conductive fine particles have the effect of imparting heat dissipation to bright conductive oil without heat conduction. These are inorganic particles and metal particles having excellent heat conduction. Examples of the particles include fine particles of Li, Ana, silicon nitride, Hokunitride, silicon carbide, calcium carbonate, carbonic acid, gallium oxide, titanium oxide, iron oxide, carbon black, and diamond. Examples of the particles include fine particles of platinum, gold, silver,, radium indium, aluminum, nickel, tin,, bis, iron, iron, and these metals. You can use these two together. (B) The conductive fine particles may be those in which a part of the surface of the organic particles is coated with a heat conductive material. These conductive fine particles may have their surfaces removed and treated with hydrophilic sensation.

 002

(B) The shape of the conductive fine particles is not particularly limited, and examples thereof include a spherical shape, a spherical shape, a prismatic shape, a hook shape, and an amorphous shape. If the single particle is visible to the naked eye, it is not particularly limited. However, in order to have an appropriate conductivity, the average diameter is 0 to 50. It is desirable that it is within the range of 0, and 0 2 is in the range of ~ 30. In order to obtain conduction, it is also possible to use conductive particles having different averages on 2 together.

 004

(B) Conductive fine particles cannot be made too much heat conduction oi, cum, or squirrel, and if too small, heat conduction oi

It is desirable that the conduction is reduced, so that the heat conduction oil is 85 () (the thermal oil metric is 0), more preferably 760.

 0025

(0) A characteristic essential component of a bright conductive oy with a high number of elementary atoms of 2 and has the effect of suppressing the composition and suppressing the decrease in consistency.

 0026

 High on prime number 2 constitutes high on prime number 2

 Examples thereof include saturated high-grade oils such as Lauri, Toh, Listi, Tade, Chin, Steari and Aradic Acid, and high-grade saturated oils such as Nano and Renoic Acid.

 The number of elementary atoms 2 is high The multivalent valence is 2 or more, preferably 2 or 3 4 valence. Specifically, lithium that has a valence of 2 and belongs to the second period of the temperament, a valence of 2 that belongs to the fourth period of the rhythm, and a valence that is trivalent and belongs to the third period. Preference is given to heavy metals (e.g., tita) that are tetravalent with a valence of 4 and belonging to the 4th period, and heavy metals (e.g., dim) with a valence of 4 and belonging to the 5th period.

 0027

The high number of atoms above 2 is as follows: Lacralium, Laurin Titanium, Lavrylium, Stin, Stium, Stin Tita, Listinium, Pentade, Pentadeum, Petade Titanium, Pentadem, Chi, Chin Aum, Chin Titanium, Patine Barium, A, Iacu, Y Titanium, Ibaum, Ga, Gan Aum, Gan Titanium, Gan, Stean, Stair Aum, Steari Chita, Stearithium,

 002

Oi, Oiaum, Oichita, Oinmu, No, Rinoaum, Nochita, Nomu, N, Noaum, Nochita, Rinom, Aladdin, Ara , Arajichita, arajiri, arad, aradoumum, aradotchita, aradomum,, naum, tita, um, ta, eta etaum, chita, ta Sakisei, Dosaki Seium, Dosaki Seita, Dosaki Sein, Rig Seri, Rig Serac, Guse Titanium, Gesenium, Ceti, Cetine Aum, Cetine Titanium, Cet Um is exemplified. Of these, Oy, Oin Aum and Oichita are particularly desirable.

 0029

It is desirable that the amount of () having a high number of elementary atoms of 2 is 0 · 5 to 50 of the amount of (B) conductive fine particles. (B) When the amount of conductive fine particles is 0.05, the effect of containing (0) high on the number of elementary atoms 2 can be sufficiently exerted, and even if it exceeds 5 · 0, the improvement is not significant.

 0030

 Bright conductive oy, () thermal oy, (B) conductive fine particles, () high above 2 atoms, (D) 2 atoms (E) glycerol stea The number of atoms is 2),, (D) high number of elementary atoms 2 high (E) gustane (however, the higher number of elementary atoms is 2). This includes conductive oi consisting of () min, (B) min, () min and D) min), (B) min, (0) min and (E) min. There is a conductive oil consisting of) minutes, () minutes, () minutes, and (E) minutes.

 003

() In high and bright conduction oys over 2 atomic atoms Although it is not an essential component, (0) The high combined use of 2 atomic atoms has the effect of further suppressing the bright conduction oil and further suppressing the reduction of the consistency.

 0032

Such high grades include Lau, Sti, Tadecane, Kisadeka (Chi), Deca (Gan, Octadeca (Steari), 2 Octadeca (Chisteari), Sa (Arakine), Dosa (), Tetrasa ( C), Kisasan (Cet), Octasan (Motor), etc.

 2 Pentina, 2 Deca, 2 Chidodeca, Isostearic Japanese high grade Toy, Oi, Isooin, Rage, Reno, No, No, Do, and Ceraine saturated high grades are exemplified, and there is no additional effect Saturation High grade Desired.

 003

(D) The high content on the number of elementary atoms 2 is preferably the content of component (B) from 0.05 to 5.0, and particularly preferably from 0 to 0. 003

(E) Gsenste is not part of the clear conduction oi, but it can be used by combining (0) high on the number of elementary atoms 2 or (0) high on the number of elementary atoms 2 By using the salt of (D) and (D) high in the number of 2 atoms, there is an effect of further suppressing the bright conductive oil and further suppressing the reduction of the consistency.

 0035

This type of grease includes monostearies, noisels, monostea glyceres, tostea gussets, nostea glycerides, monoo inte tracts, tosten tetra gussets, tastes telags. Mono-xanthase, Mono-stixase, Stean-xag-seri, Mono-o-n-xag-serito Stea-xaxe, Tetra-n-xag-seri, Tasten-xax-xe, Ixag-xe, Noraus-se, Nostinse Se, mono 0 teaseri, no teaseri, no

 Seri, Non Seri,

 003 6

 Stearice, stease, to stease, tooinse, petestea

Seri, Taki Stea Seri, Petai Sostea

 Seri, Taoi Glicelli, Tastearise, Ounguse, Castea Seri, Staircase, Oilise, Cadea

 Fat oil and voice are exemplified, but in terms of additive effect,

Seri rig seri (Bo glyceri renot) is desirable.

 003 7

 E) Content of polygeste, content of component (B) is desired to be 0 ・ 05 ～ 5 ・ 0, and 0 ・ ～ ・ 0 is more effective.

 Light conductive oil, stood at room temperature, cream or goose-like. It is desirable that its conduction be on W ·, and on 5W ·.

 003 9

 It may contain pigments, colorings, thixo, oxidation, ultraviolet rays, agents, etc. 0040

 The damaging agent is to reduce the amount of bright conductive oil that gets out of the body. Examples of such a fucking are a tox fucking agent and an id fucking agent.

 004

 Benzenes are preferred for fucking, such as bis (P-methylbenzidene) and bis (P-benzidene).

 , Benzit, revenge date, and akibendent on 3 carbon atoms.

004 2 Examples of acid-based fucking include: lacun acid, steaid, etc., saturated anoid, etc., laurane, steer steaid, methystiaid, etc. Screws such as Thiaid, Methbis Steaid, Chin Slow Aid, Thixtea Aid, Saturated Visids such as Methioid Aid, Screws such as Cyribis Stearate Aid Examples include id, thiod, id, steanoid, steaide, and the like. 2 You can also use the above-mentioned damaging agent.

 043

 This amount is sufficient to reduce the redout of odorous substances, such as light-emitting odorants, and odorous substances over time, and () Thermal Oy 00 or 0 · 0 to 0 Is desirable, and it is better that it is 0 · 5 · 0.

 004

 It is desirable that the fucking agent is mixed with the oyster part, which is solid at room temperature, and dissolved at a temperature higher than that point. Bright conduction OY Excellent heat resistance and oxidation, but may further contain oxidation to improve heat resistance and oxidation.

 There is no particular limitation, and Bon, Aquinoto, B, Inic acid, Achimecaptan, Mecap, Mecapto acid, Inorganic acid, Metal oxide 26 6 Octa 3 (3 5 jitter 4) pupione, 4 4

For example, dandofno such as Davis (3 meth. 6 tas.). The amount of these oxidations should be between 0 and 0 for clear conductive oils, preferably between 0 · 05 and 5 · 0. 004

 It can be easily prepared by mixing until bright conductive oil, () thermal oil, (B) conductive fine particles and () two atomic atoms are high. It may be a difference between heating and heating, or it may be mixed under reduced pressure.

 004

() High number of elementary atoms 2 Highly solid at room temperature, it is desirable to heat and melt before mixing () Thermal oil B) Conductive fine particles. (B) Conductive fine particles ()

 Mix by heating, and mix the mixture with () thermal oil. Also, (dissolve in a high organic agent with more than 0 atomic atoms, the solution and B) mix the conductive fine particles and remove the organic agent (thermal oy may be mixed) thermal oi () elementary atoms It is also possible to heat and mix several 2 above and mix the compound and (B) conductive fine particles.

 0049

In addition, (B) Conductive fine particles () Highly mixed over 2 atomic atoms and mixed together even if all components are combined at the same time, even at high room temperature over 2 atomic atoms. It is desirable to mix with () thermal oy, or (0) a high number of atoms above 2

 It is desirable to remove the organic agent after dissolving in the organic agent and mixing with (B) conductive fine particles, and mixing the compound with () thermal oil.

 0050

 It can be any of the following: bright conductive oil, electrical insulation, semiconductive. (B) By selecting the kind of conductive fine particles, it is possible to make the difference between gas insulation and semiconductivity. In the case of gas insulation, it is desirable to have a volume Ⅹ 0 · c. If it is conductive, it should be in the range of ０ 0 c X 01 · c. In other words, in the case of electrical conduction, it is desirable that the volume is below c.

 005

It is desirable to pipe it in a light conducting oil, plastic, metal, glass, chip, or cartridge. A refrigerated tube may be used for the purpose of improving the qualification, and the storage degree is exemplified at 5 ° C or lower. 3 0052

 It is used in the form of light conduction, heat dissipation, electronic equipment and part heat dissipation, for example, between fins.

 When applied to heated products, electrical equipment and parts, the application method is not particularly limited, and examples thereof include dispensing cloth, printing cloth, sp cloth, bud cloth, brush, and injection.

 0 53

 The bright heat agent is) thermal oil 20 ~ 50, (B) conductive fine particles 80 ~ 50 (weighing 0),, () high above 2 atomic atoms

 It is characterized by consisting of an abundance of component (B) of 0 · 05 to 5 · 0. As already explained in the section of heat transfer and heat conduction. The method, characteristics, storage method, and usage method of the heat agent are the same as those of the heat conduction oil.

 0054

 The bright heat agent is further: () Thermal Oy, (B Conductive Fine Particles, () High above 2 atoms,, (D) High above 2 atoms

 , (E) Glyceriste (however, the higher number of elementary atoms is over 2), or (D) High E over the number of elementary atoms 2) It is characterized by this.

() Minute (E, as already explained in heat conduction oy. The Meiji sub-equipment must be in contact with heat dissipation, for example, fins, heat dissipation, heat dissipation through the heat agent of the present invention. Products such as capacitors, resistors, diodes, memos, computation (P), Tevi-Plas-Tevi dry CP chipset, semiconductor wades, industrial / robots, etc., switching sources, automotive, audio Are illustrated.

Sub-devices: TVs, plasts TVs, organic TVs, projectors, PCs,,, diskettes, refrigerators, a, heaters, hip-pops, IDC devices, spitters, trains Examples include slave devices, aerospace devices, robot slave devices, other voltage control devices, and these products. 056

 Comparison: Conducted oil, heat dissipation agent: Determined according to the following method and conditions. Is the weight.

 The measurement was carried out at a temperature of 0/3 3 and a temperature of 25 using a 057 type company-developed dynamometer V20.

 058

 Fucking

 We evaluated as at 3 m at 0 3.

 059

 transmission

 The test was conducted with a conductive oil sandwiched between 0 X 0 and 0/8 thickness in thickness of 40 or 80. Then, (oC W) was measured, and the relationship of () was put on a glass to draw a straight line, which was taken out by heat conduction (W).

 In 0600 Vica, unsaturated high grade 4 carbon atoms are 8 and titanium 40/45 (manufactured by Kagaku Pharmaceutical Co., Ltd.) Conductive fine particles 00 is mixed with 20 parts in a quantity of 0/50. Thus, an oin titanium solution was prepared.

This liquid and heat conduction fine particles with an average diameter of 3

 Product name, product name 3, specific gravity 4.0) 7-6 parts, average diameter of 0,5 (ana, product name A05, specific gravity 4.0) 9 parts And mixed until. Under 0 · 7 Pa, heated to 50 C and turned to obtain a spherical anal powder with the surface treated with an incita.

 06

In the heat oy Laboratory, product name 0, 0 C degree nns, specific gravity 0 · 9) ・ Inject 5 parts, mix with 5 until pressure is 0 ・ 7 P, cool to room temperature and return to As a result, a goose-like heat conduction oil was obtained. The ratio of thermal oy to the measurement of thermal oi thermal conductive fine particles in this conductive oy was, and the content of thermal conductive fine particles was 66.

This conductive oil (measured by viscosity, thixotropy, and thermal conductivity with a heat agent was summarized as follows.

 In this case, instead of using an oxidizer, an unsaturated high grade 2 oy (manufactured by a chemical company) with a carbon atom number of R was used. It was.

With this conductive oil (heat agent), the viscosity, thixotropy, and thermal conductivity were measured and summarized. It can be seen that due to the degree of damaging data, is excellent.

 0063

 Three

 In addition, in addition to oin titanium, a crystal-like heat conduction oil was obtained under the same conditions except that steanium (manufactured by a chemical company) of Japanese high grade 3 having R carbon atoms was used.

Using this conductive oil (heat agent), viscosity, thixotropy, and heat conductivity were measured and summarized. It can be seen that is superior due to the degree of dexterity.

 At 0064, a heat conducting oil was prepared under the same conditions except that no titanium titanium liquid was used.

It was an uneven child shape that was not in the form of conductive ogys, and I could not measure the viscosity, thixo, and heat conduction. The results are listed in Table 3. 0065

Four Instead of preparing an Oita tita solution in Fig. 6, an Oita titer 0/45 (manufactured by a chemical company. The amount is 0/50 with respect to the conductive fine particles 00), and the number of carbon atoms is 8. Saturated high-grade oil (produced by a chemical company, reagent) ・ 3 parts, 2 parts, and 2 parts were mixed to prepare a 5-oin titanium oleic acid solution. I got oy.

 Using this conductive oil (heat agent), viscosity, thixotropy, and thermal conductivity were measured and summarized in. Due to the degree of squealing data, is excellent.

 0

 Five

 In this case, instead of preparing an oxidizer solution, it was manufactured by TiO. It is a quantity of 0 · 50 with respect to conductive fine particles 00), Poguse 5 Polysino Toinke company, trade name 7500 r, and 20 parts of Tongue. A grease-like heat conduction oil was obtained under the same conditions except that an Oita polyglycepolyno liquid was prepared.

 With this conductive oil (heat agent), the viscosity, thixotropy, and thermal conductivity were measured and set to 20. It can be seen that due to the degree of damaging data, is excellent.

 0067

 6

 However, instead of preparing an ointita solution, oin titanium 0.25 45 (manufactured by a chemical company. 0/50 for conductive fine particles 00

 , An unsaturated high-grade oil with 8 carbon atoms (reagent), 0.3 parts, glycen saturated high-grade gseonotope Except for preparing a liquid of Titanium 30 Impog Senlinoto by mixing 20 parts of Tonen 750 0 3, and Tongue, a goose-like heat conduction oil was obtained under the same conditions. .

For this conductive oil (heat agent), the viscosity, thixotropy, and thermal conductivity were measured and summarized. Is excellent due to the degree and fucking data There is a difference.

 006 8

 7

 In addition, in the case of the masticite oil, which is a heat-resistant oil,

 63 at 0 C

 A crystal-like heat conduction oil was obtained under the same conditions except that S and specific gravity of 0/84 were used. The ratio of the thermal oy to the measurement of the thermal oy heat conduction fine particles in this conduction oy was 36, and the content of the heat conduction fine particles was 64.

Using this conductive oil (heat agent), viscosity, thixo, and thermal conductivity were measured and summarized in 2. It can be seen that is excellent due to the degree and squealing data.

 0069

 8

 In addition, the heat conduction fine particles, the powder with an average diameter of 3, an aluminum with an average diameter of 20 (made by Aum type company, trade name 07, specific gravity 2/7) 45.0 parts, An average diameter of 0 · 5, but an average diameter of 2 is an aum (Aum type company, product name 07, specific gravity 2 · 7). A crusty heat conduction oil was obtained. The thermal oy content in this conductive oy was 36 and the content of the thermal conductive fines was 64.

With this conductive oil (heat agent), the viscosity, thixo, and thermal conductivity were measured and summarized as 2. Depending on the degree and the squeezing property, the is excellent.

 007

 9

 In this case, instead of o-in-titanium, the use of 0-45, a high-grade 2 carbon atom with 2 carbon atoms (manufactured by a chemical company, the amount is 0.50 with respect to 00 conductive particles). Except for the above, a heat conducting oil was prepared under the same conditions.

With this conductive oil (heat agent), the viscosity, thixo, and thermal conductivity were measured and summarized as 2. Excellent due to degree and fucking data 8 things are different.

 007

 0

 In this case, except for the heat-resistant methyte oy, the methy oy (Made by Downing Company, trade name S 200 oy, 300 Pas at 25oC, specific gravity 0/96) is used. Obtained a crystal-like heat conduction oil under the same conditions. Methine oil in this conduction oil Meth for the measurement of heat conduction fine particles

 The oy content is 32 and the amount of heat conduction fine particles is 68.

You.

Using this conductive oil (heat agent), viscosity, thixo, and thermal conductivity were measured and summarized in 2. Depending on the degree and squealing data, it can be seen that is excellent.

 0 72

 2

 However, instead of Oichita, it has 8 carbon atoms.

 A heat conducting oy was prepared under the same conditions except that 2 0-45 (manufactured by a formula company, which is 0.50 with respect to the conductive fine particles 00) was used.

It was an uneven child shape that was not in the form of conductive oil, and it was impossible to measure viscosity, thixo, and heat conduction. The results are listed in Table 3. 0078

 Three

 At 0, a heat transfer tube was prepared under the same conditions except that no ointita solution was used.

It was a non-uniform child shape that was not in the form of conductive oil, and viscosity, thixo, and heat conduction could not be measured. The results are summarized in Table 3. 00 4 2, thermal

A X Ni Nini Conduction fine particles

Child

 Of Soni

 The number of elementary atoms 8 8 8 8 8 The valence of the genus 4 2 3 A 4 4. . .

 "

 "Keg ... El

.

 Conduction oy (Pa ・ s

 3 67 823 20 6 608 4 6 38 n 49 263 32 26 2

8 5 ・ 5 7 3 Conduction (W 0 0 2 0 0)

2

 7 8 9 0

 . . .

Fever

 X

Conductive fine particles

Number of elementary atoms 8 8 2 8 valence 4 4 2 4.

 Le. . . .

Conduction oy

of

 (P a s)

3 P 552 552 420 928 3 5 5 55 274 82 Fucking 3 ・ 6 3 ・ 6 5 ・ 2 5 ・ Conduction (W) 2 ・ O 2 ・ 8 2 ・ O 2 ・ O

Three

 twenty three

 . . .

 Thermal oily conductive fine particles

Number of elementary atoms

 Valence of genus 2 ㍗ GNol conduction OY uniform average uniform

 Child shape child shape

 (P a s)

 O 3 P Yes Yes Yes

 3 P measurement Measurement measurement

 Fucking

 Availability on conduction (W)

 0077

 Because it has good heat conduction and excellent heat conduction, it is necessary to dissipate stored devices, resistors, diodes, memory, arithmetic (CP), etc., semiconductor packages with these chips, and circuit heat. It is useful as a body to convey efficiency, and as a heat dissipation agent. The bright heat agent, electrical power, such as desalter, resistance, diode, memory, arithmetic (P), etc. Semiconductor packages and circuits with chips

It is useful as a body to efficiently transfer the heat of the device to heat dissipation. Ming's child device is useful as an electronic device with excellent reliability for heating. Of the issue 78 Thermal conductive oil

Claims

・ (Thermal oil, (B) conductive fine particles and () high above 2 atomic atoms

 Heat conduction oy, characterized by being made of salt. The conductive oil according to claim 1, characterized in that it is (0) an unsaturated higher class, and a polyvalent metal is a 2 or 3 4 metal. The conductive oy according to claim 2, wherein the conductive oy is a saturated higher oleic acid, and the polyvalent genus is Aum or.・ The content of () is 20 to 50, and the content of component (B) is 80 to 50.

 Conductive oil according to claim 1, characterized in that the weight of component 0) is 0 · 0 5 to 50 of the amount of component (B).

 .・ () Thermal oil, (B) Conductive fine particles, () High above 2 atoms

,, (D) High above 2 elementary atoms, E) Polygense stage (however, higher number of elementary atoms is above 2), or (D) High above atomic number 2 (E) Polyglycerides Heat conduction oi, characterized by the fact that it is composed of a solid (however, the number of high-order elementary atoms is 2). The conductive oy according to claim 5, wherein the conductive oy is an unsaturated higher class and a polyvalent metal is a metal having 2 or 3 or 4 values. The conductive oy according to claim 6, wherein the higher ionic acid is saturated and the polyvalent genus is ammonia or titan.・ The amount of () is 20 to 50, the amount of component (B) is 80 to 50 (weighing 00), and the amount of (0) is 0 to 0 of the amount of component (B). The amount of (D), the amount of component (E), or the amount of component () component (E) is 0.50 of the amount of component (B). The oy according to claim 5, characterized by: -4 is the conductive oil described in claim 8 and is on the thermal conductivity W. An electronic device characterized in that the electronic product that has been zeroed is in contact with heat dissipation through the heat agent listed in 9.