CN105086855B - The adhesive method and flexible absorbing material of silicon rubber and object - Google Patents
The adhesive method and flexible absorbing material of silicon rubber and object Download PDFInfo
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- CN105086855B CN105086855B CN201410197180.7A CN201410197180A CN105086855B CN 105086855 B CN105086855 B CN 105086855B CN 201410197180 A CN201410197180 A CN 201410197180A CN 105086855 B CN105086855 B CN 105086855B
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Abstract
The method and flexibility absorbing material of micro-structure interlayer are added the invention discloses the adhesive method of a kind of silicon rubber and object, between silicone rubber matrix, in the adhesive method of the silicon rubber and object, the object uses the material different from the silicon rubber, adhesive method includes the following steps: that (1) uniformly coats epoxy adhesive on the adhesive surface of the object, and being baked to makes the epoxy adhesive in semi-cured state;(2) one layer of silicone adhesive agent is uniformly coated on the adhesive surface of the silicon rubber;(3) by the bonding rear pressing of the adhesive surface of the adhesive surface for being coated with the object of the epoxy adhesive in step (1) and the silicon rubber for being coated with the silicone adhesive agent in step (2);(4) epoxy adhesive and the silicone adhesive agent is fully cured.The adhesive method is simple and easy, and adhesion strength is big.
Description
Technical field
The present invention relates to absorbing materials, more particularly to the adhesive method and flexible suction wave material of a kind of silicon rubber and object
Material.
Background technique
Silicon rubber solvent not soluble in water and any, it is non-toxic and tasteless, chemical property stablize, except highly basic, hydrofluoric acid in addition to not with times
What substance reacts.The chemical composition and physical structure of silicon rubber determine that there are many other same type of material to be difficult to take for it
For the characteristics of.Silicon rubber has the characteristics that acidproof, alkaline-resisting, resistant to high temperature as the matrix of absorbing material, but also makes absorbing material
With flexibility.
Existing flexibility absorbing material is with rubber and wave absorbing agent filler by a certain percentage by being kneaded, and suction wave is made in calendering
The absorption frequency range of rubber paster, but the complex process of this mode, large labor intensity, and this absorbing material is (following
Claim Absorber Bandwidth) it is smaller.
Meanwhile the prior art generally uses curable adhesive the method for silicon rubber and plastic bonding, this method is first matched
Curable adhesive processed, it is then that the curable adhesive prepared is filling in dispenser, it is viscous in silicon rubber by dispenser dispensing
Junction, then be bonded with plastic part.It is bonded posterior photocuring.The shortcomings that this method is exactly to need ultra-violet apparatus, dispenser
Etc. plurality of devices, increase cost, increase production process.
Summary of the invention
To make up for the shortcomings of the above existing technologies, the present invention provides the adhesive method of a kind of silicon rubber and object, in silicon
The method and flexibility absorbing material of micro-structure interlayer are added between rubber matrix.
Technical problem of the invention is resolved by technical solution below:
A kind of adhesive method of silicon rubber and object, the object use the material different from the silicon rubber, including such as
Lower step:
(1) epoxy adhesive is uniformly coated on the adhesive surface of the object, and being baked to makes the epoxy adhesive be in
Semi-cured state;
(2) one layer of silicone adhesive agent is uniformly coated on the adhesive surface of the silicon rubber;
(3) it will be coated in the adhesive surface of the object in step (1) coated with the epoxy adhesive and step (2)
Pressing after the adhesive surface of the silicon rubber of the silicone adhesive agent is bonding;
(4) epoxy adhesive and the silicone adhesive agent is fully cured.
Preferably, the object uses plastics or conductive material.
Above technical scheme is simple and easy, and adhesion strength is big, can use the occasion of silicon rubber and plastic bonding, can also be with
It is bonding with micro-structure for silicone rubber matrix.
Preferably, further include following steps before step (1): the mode of silicon rubber curtain coating or scraper is made into
The film of 0.5-1mm thickness.
Preferably, the epoxy adhesive be epoxy AB glue, wherein the epoxy AB glue include component A and B component and by
The mass ratio of the component A and B component mixes for 100:43.
Preferably, the pressing is carried out in step (3) using vacuum bag pressure method.
Using vacuum bag pressure method carry out pressing may further ensure that epoxy adhesive and silicone adhesive dosage form at layer
Uniform and bubble-free.
A kind of flexibility absorbing material, including the first silicon rubber and polyimide film are set in the one side of the polyimide film
There is at least one micro-structure, the micro-structure is made of an electrically conducting material, uniform in the one side equipped with micro-structure of polyimide film
Coated with epoxy bonds oxidant layer, silicone adhesive oxidant layer is uniformly coated in the one side of first silicon rubber, by polyimide film
Be equipped with micro-structure be fitted in the first silicon rubber coated with silicon rubber binder while on, the silicone adhesive agent
Pressing after layer and the epoxy bonds oxidant layer are bonding.
Micro-structure is added in silicone rubber matrix, the Absorber Bandwidth of flexible absorbing material can be expanded, and can be by micro-
There is preferable absorption in the position of the size adjusting absorption peak of structure in the frequency range of needs.
Preferably, the flexible absorbing material further includes the second silicon rubber, is not provided with micro- knot in the polyimide film
It is also coated with epoxy bonds oxidant layer in the one side of structure, the one side of second silicon rubber is coated with silicone adhesive oxidant layer, and described the
The silicone adhesive oxidant layer on of two silicon rubber and the polyimide film be not provided with micro-structure while on epoxy it is viscous
Tie the bonding rear pressing of oxidant layer.
Micro-structure can expand the Absorber Bandwidth of flexible absorbing material as interlayer, and can pass through the position of micro-structure interlayer
It sets, to adjust absorption of the position realization of absorption peak to special frequency channel.
Preferably, the flexible absorbing material further includes wave absorbing agent, and the wave absorbing agent is magnetic material, the wave absorbing agent with
First silicon rubber mixes integral, wherein the mass ratio of the wave absorbing agent and first silicon rubber 13:7~4:1 it
Between.
Preferably, the flexible absorbing material further includes wave absorbing agent, and the wave absorbing agent is magnetic material, the wave absorbing agent with
Second silicon rubber mixes integral, wherein the mass ratio of the wave absorbing agent and second silicon rubber 13:7~4:1 it
Between.
Preferably, the micro-structure with a thickness of 10-20 μm, the polyimide film with a thickness of 65-85 μm, it is described micro-
The structure gap periods such as on polyimide film are arranged.
Preferably, the overall thickness of the silicon rubber and the second silicon rubber is 1.2 ± 0.1mm.
A method of micro-structure interlayer being added between silicone rubber matrix, the silicone rubber matrix includes the first silicon rubber
Matrix and the second silicone rubber matrix, the micro-structure is made of an electrically conducting material and is supported in the one side of polyimide film, described
The micro-structure gap periods such as on polyimide film are arranged, wherein described method includes following steps:
(1) beat through hole in the interval of the every two adjacent micro-structure, the through hole from polyimide film one
Face is through to another side;
(2) silicon rubber is formed a film with curtain coating or the mode of scraper, and be cured in semi-cured state to obtain described the
One silicone rubber matrix;
It (3) will be on first silicone rubber matrix of the polyimide film of step (1) being layered under semi-cured state on one side;
(4) silicon rubber is made into second with the mode of curtain coating or scraper on the another side of the polyimide film of step (1)
Silicone rubber matrix obtains composite material;
(5) composite material is fully cured, obtains flexible absorbing material.
Method more than contacts the uncured silicon rubber filling of upper layer and lower layer in through hole using through hole
It is co-curing afterwards, binder can not had to, micro-structure is bonded on silicon rubber, moreover it is possible to so that adhesion strength is reached bulk strength, produce
Also without bubble inside product.
Preferably, include: in the middle detailed step for preparing first silicone rubber matrix of step (2)
A, silicon rubber and magnetic material powder are made into slurry, in the slurry, the magnetic material powder and silicon rubber
Weight ratio is 13:7~4:1;
B, the slurry is made into the film of 0.5-1mm thickness with curtain coating or the mode of scraper, and is cured in semi-solid preparation
State is to obtain first silicone rubber matrix.
It is further preferred that the slurry is made into in the step B with the mode of curtain coating the film of 0.5-1mm thickness,
And the step of being cured in semi-cured state to obtain first silicone rubber matrix, specifically includes:
Hopper is added in the slurry, wherein the width of the hopper is 27-30cm, the gap of casting knife and conveyer belt
For the thickness for first silicone rubber matrix that need to be prepared, the speed of the conveyer belt is 0.1-0.5m/min;
Heater box is opened so that the slurry semi-solid preparation after the completion of slurry curtain coating, wherein the heater box adds
Hot temperature is 80~120 DEG C, time 10-30min.
Preferably, include: in the middle detailed step for preparing second silicone rubber matrix of step (4)
A, silicon rubber and magnetic material powder are made into slurry, in the slurry, the magnetic material powder and silicon rubber
Weight ratio is 13:7~4:1;
B, the slurry is made into the film of 0.5-1mm thickness with the mode of curtain coating or scraper, and solidifies and obtains described the
Two silicone rubber matrix.
It is further preferred that the slurry is made into in the step B with the mode of curtain coating the film of 0.5-1mm thickness,
And solidifies the step of obtaining second silicone rubber matrix and specifically includes:
Hopper is added in the slurry, wherein the width of the hopper is 27-30cm, the gap of casting knife and conveyer belt
For the thickness for second silicone rubber matrix that need to be prepared, the speed of the conveyer belt is 0.1-0.5m/min;
Heater box is opened so that the slurry curing after the completion of slurry curtain coating, wherein the heating of the heater box
Temperature is 80~120 DEG C, time 1.5-2h.
A kind of flexible absorbing material being prepared by above-mentioned method, including the first silicone rubber matrix, the second silicon rubber
Matrix, the microstructured layers being folded between first silicone rubber matrix and the second silicone rubber matrix, the microstructured layers include
Polyimide film and the micro-structure being supported in the polyimide film one side, the micro-structure are made of an electrically conducting material, institute
It states the micro-structure gap periods such as on polyimide film to arrange, the interval of the every two adjacent micro-structure, which has, to be run through
Hole, the through hole are through to another side from polyimide film on one side, filled with the first silicon rubber of preparation in the through hole
The raw material of matrix and/or the second silicone rubber matrix, the raw material include silicon rubber.
Preferably, further include magnetic material powder in the raw material, the weight ratio of the magnetic material powder and silicon rubber is 13:
7~4:1.
Preferably, first silicone rubber matrix with a thickness of 0.5-1mm;And/or second silicon rubber with a thickness of
0.5-1mm。
Flexible absorbing material of the invention can arbitrarily change shape, can be pasted onto complex-shaped stealthy device with
And it needs on the device of radiation protection.
Detailed description of the invention
Fig. 1 is the schematic diagram that the micro-structure in flexible absorbing material of the invention is arranged in polyimide film;
Fig. 2 is the reflectance test result schematic diagram of the flexible absorbing material of the embodiment of the present invention three;
Fig. 3 is the reflectance test result schematic diagram of the flexible absorbing material of the embodiment of the present invention four;
Fig. 4 is the reflectance test result schematic diagram of the flexible absorbing material of the embodiment of the present invention five;
Fig. 5 is the reflectance test result schematic diagram of the flexible absorbing material of the embodiment of the present invention six;
Fig. 6 is the reflectance test result schematic diagram of the flexible absorbing material of comparative example one of the present invention;
Fig. 7 is the reflectance test result schematic diagram of the flexible absorbing material of comparative example two of the present invention;
Fig. 8 is the reflectance test result schematic diagram of the flexible absorbing material of comparative example three of the present invention;
Fig. 9 is the schematic diagram of a layer structure of the flexible absorbing material of the embodiment of the present invention seven~12;
Figure 10 is the reflectance test result schematic diagram of the flexible absorbing material of the embodiment of the present invention seven and eight;
Figure 11 is the reflectance test result schematic diagram of the flexible absorbing material of the embodiment of the present invention nine and ten;
Figure 12 is the reflectance test result schematic diagram of the flexible absorbing material of the embodiment of the present invention 11 and 12;
Figure 13 is to illustrate in comparative example four of the present invention with a thickness of the reflectance test result of the flexible absorbing material of 1.2mm
Figure;
Figure 14 is to illustrate in comparative example four of the present invention with a thickness of the reflectance test result of the flexible absorbing material of 1.4mm
Figure;
The schematic diagram of a layer structure of flexible absorbing material in Figure 15 embodiment of the present invention 13 and 14;
Figure 16 is that the micro-structure that step (1) obtains in the embodiment of the present invention 13 and 14 is shown what polyimide film was arranged
It is intended to.
Specific embodiment
Below against attached drawing and in conjunction with preferred embodiment, the invention will be further described.
The present invention provides the adhesive method of a kind of silicon rubber and object, and the object uses the material different from the silicon rubber
Material, in one embodiment, includes the following steps:
(1) epoxy adhesive is uniformly coated on the adhesive surface of the object, and being baked to keeps epoxy adhesive solid in half
Change state;
(2) one layer of silicone adhesive agent is uniformly coated on the adhesive surface of silicon rubber;
(3) it will be coated in step (1) in the adhesive surface and step (2) of the object of epoxy adhesive coated with silicone adhesive
Pressing after the adhesive surface of the silicon rubber of agent is bonding;Silicone adhesive agent easily solidifies in air, is not easy to smoothen during painting,
Pressing can make silicone adhesive agent uniformly and not stay bubble under pressure again, because if there is bubble in sample, meeting
The electromagnetic performance of material is influenced, is pressed in a preferred embodiment using vacuum bag pressure method.
(4) epoxy adhesive and silicone adhesive agent is fully cured.
Wherein, the preferably described silicone adhesive agent is single-component room-temperature vulcanized type silicon rubber, one pack system heating cure silicon rubber
At least one of with bi-component addition type silica gel.Further include following steps before step (1): by silicon rubber curtain coating or
The mode of scraper is made into the film of 0.5-1mm thickness.
The epoxy adhesive is epoxy AB glue, and epoxy AB glue includes component A and B component and by the component A and B component
Mass ratio mixed for 100:43.Object uses plastics or conductive material, and conductive material, which can be used for making having, inhales wave
The micro-structure (also referred to as breadboardin structure) of effect, micro-structure is supported on polyimide film, and the pattern of micro-structure can be with
It is two dimension or three-dimensional, such as box-shaped, I-shaped, snowflake shape, hollow circular, as long as micro-structure mainly has electromagnetic wave instead
It penetrates and transmission acts on, no matter what shape and pattern, all can serve as micro-structure of the invention.
Micro-structure in following all examples is illustrated by taking square block as an example, and silicon rubber is the silicon rubber of AB two-component
Glue, using Dow corning DC184 silicon rubber.Epoxy AB glue is produced by Shanghai Kangda Chemical New Material Co., Ltd.
's.Single-component silicon glue caking agent is the E41 type silicone adhesive agent produced by German Wa Ke company.Bi-component addition type silica gel be by
707 silicon rubber binders of German Wa Ke company production, room temperature refer to 20-25 DEG C of temperature.
It is described in detail below by way of adhesive method of the specific embodiment to silicon rubber and object.
Embodiment one
(1) mode of silicon rubber curtain coating or scraper is made into the film of 0.5-1mm thickness, it is stand-by after solidification, in this example
With a thickness of 0.8mm;Electrically conductive ink is made into micro-structure on polyimide film.
(2) component A of epoxy AB glue and B component are 100:43 mixing in mass ratio, are evenly coated in poly- equipped with micro-structure
The one side of acid imide film.
(3) micro-structure is toasted into 10-15min in 80 degree of ovens, it is (i.e. completely not solid in semi-cured state with epoxy AB glue
The state of change is subject to tack-free), it then takes out.
(4) it is uniformly coated with E41 type silicone adhesive agent on one side in silicon rubber.
(5) by be coated with E41 type silicone adhesive agent and have be coated with epoxy AB glue while it is bonding after using vacuum
Pressure bag method pressing.
(6) after product room temperature 48 hours after bonding, E41 type silicone adhesive agent and epoxy AB are fully cured.
Embodiment two
Step (1)~(3) are together with embodiment;
(4) it is uniformly coated with 707 type silicone adhesive agent on one side in silicon rubber.
(5) by be coated with 707 type silicone adhesive agent and have be coated with epoxy AB glue while it is bonding after using vacuum
Pressure bag method pressing.
(6) after product room temperature 48 hours after bonding, 707 type silicone adhesive agent and epoxy AB are fully cured.
Peel strength test is carried out to the product in embodiment one and two, micro-structure is not torn when due to test peel strength
It opens, but silicon rubber has been torn to shreds, it can thus be assumed that the peel strength of silicon rubber is greater than its tensile strength, according to DOW CORNING DC184
The peel strength about 7.1*10 that the tensile strength provided in the specification of silicon rubber is released6N/m。
As known from the above, silicon rubber and plastics or conductive material can be bonded using above technical scheme, the party
Method is simple and easy, does not have to complex device, has saved cost, moreover it is possible to effectively solve silicon rubber in conjunction with micro-structure.
Invention additionally discloses a kind of flexible absorbing materials, in one embodiment, including the first silicon rubber and polyamides Asia
The one side of amine film, the polyimide film is equipped at least one micro-structure, and the micro-structure is made of an electrically conducting material, and polyamides is sub-
It is uniformly coated with epoxy bonds oxidant layer in the one side equipped with micro-structure of amine film, is uniformly coated in the one side of first silicon rubber
There is silicone adhesive oxidant layer, polyimide film is fitted in the first silicon coated with silicon rubber binder equipped with micro-structure on one side
In the one side of rubber, the silicone adhesive oxidant layer and the bonding rear pressing of the epoxy bonds oxidant layer.
Wherein it is possible to it is preferred that be pressed using vacuum bag pressure method, the first silicon rubber is the base as flexible absorbing material
Body, polyimide film are the carriers as micro-structure, have micro-structure in the single side of polyimide film, as previously mentioned, micro-structure
Can be has micro-structure of various shapes with what conductive material was formed, can such as copper foil be used to make micro-structure, can also be with leading
Electric printing ink to manufacture.Preferably, first silicon rubber with a thickness of 0.5-1mm.
In a preferred embodiment, the flexible absorbing material further includes the second silicon rubber, in the polyimides
Being not provided in the one side of micro-structure for film is also coated with epoxy bonds oxidant layer, and the one side of second silicon rubber is viscous coated with silica gel
Tie oxidant layer, the silicone adhesive oxidant layer on of second silicon rubber and polyimide film be not provided with micro-structure while on
Epoxy bonds oxidant layer it is bonding after pressing, and it is further preferred that the overall thickness of the silicon rubber and the second silicon rubber be 1.2
±0.1mm。
It can also preferably include wave absorbing agent, the wave absorbing agent in the flexible absorbing material in embodiment of above
For magnetic material, the wave absorbing agent can mix integral, the suction with first silicon rubber and/or the second silicon rubber respectively
The mass ratio of wave agent and the first silicon rubber is between 13:7~4:1, and the mass ratio of the wave absorbing agent and the second silicon rubber is in 13:7
Between~4:1.Wherein, magnetic material can be magnetic metal powder, such as carbonyl iron dust.Preferably, the micro-structure with a thickness of
10-20 μm, the polyimide film with a thickness of 65-85 μm, the micro-structure on polyimide film etc. gap periods arrange.
Flexible absorbing material is described in detail below by way of more specific embodiment, the micro-structure in following embodiment
It is made by copper foil, the shape of micro-structure is positive box-shaped.Micro-structure 21 as shown in Figure 1 be arranged in by identical gap period it is poly-
On acid imide film 2, it is covered with required area, wherein laterally or longitudinally upper micro-structure side length is 1.1~1.8mm, i.e., as shown in figure 1
Shown, the range of a is 2-2.7mm, laterally or longitudinally on adjacent two micro-structure interval b it is constant be 0.9mm.
Embodiment three
(1) the ratio mechanical stirring that carbonyl iron dust and silicon rubber are 4:1 in mass ratio is mixed, mixing speed 300-
500r/min, time are 0.5-1h, in this example, mixing speed 400r/min, time 1h.Wherein, used is Shanghai rope
The digital display blender of experimental instruments and equipment limited production is reflected, silicon rubber uses A, B two-part liquid silicon rubber, mass ratio A:B=
10:1.
(2) slurry mixed in step (1) is cast on casting machine, makes 1.2 ± 0.1mm of thickness, is in this example
The flexible absorbing material matrix of 1.2mm.Specific casting step is as follows on casting machine:
The slurry mixed in step (1) is added hopper, the width of hopper is 27-30cm, casting knife and conveyer belt
Gap is the thickness of flexible absorbing material matrix, and the gap of casting knife and conveyer belt is 1.2mm in this example, and the speed of conveyer belt is
0.1-0.5m/min.Heater box is opened after the completion of slurry curtain coating, heating temperature is 80~120 DEG C, time 1.5-2h, slurry curing
It completes, makes the flexible absorbing material matrix of thickness 1.2mm.
(3) surface of flexible absorbing material matrix is uniformly coated with one layer of single-component silicon glue caking agent.
(4) micro-structure is made on polyimide film with copper foil, micro-structure 21 is uniformly arranged at equal intervals on polyimide film 2
Cloth, as shown in Figure 1, wherein the range of a is 2-2.7mm, it is 0.9mm, a=2mm in this example that it is constant, which to be spaced b, is being equipped with micro-structure
The side be uniformly coated with one layer of epoxy adhesive.
(5) it will be pressed after epoxy adhesive and single component silica gel adhesive bond will be coated with using vacuum bag pressure method, places 48
After hour, bonding agent curing molding obtains flexible absorbing material.
Obtained flexible absorbing material is cut into the square of 300mm*300mm, is used for reflectance test, test result is as schemed
Shown in 2.
Example IV
Difference with embodiment three is: using the micro-structure of a=2.7mm in step (4).Other steps and embodiment three
It is identical.Obtained flexible absorbing material is cut into the square of 300mm*300mm, is used for reflectance test, test result such as Fig. 3 institute
Show.
Embodiment five
Difference with embodiment three is: carbonyl iron dust and silicon rubber are 13:7 in mass ratio in step (1).Other steps
It is identical as embodiment three.Obtained flexible absorbing material is cut into the square of 300mm*300mm, is used for reflectance test, test
As a result as shown in Figure 4.
Embodiment six
Difference with embodiment five is: using the micro-structure of a=2.7mm in step (4).Other steps and embodiment five
It is identical.Obtained flexible absorbing material is cut into the square of 300mm*300mm, is used for reflectance test, test result such as Fig. 5 institute
Show.
Comparative example one
Embodiment three can also be used as flexible absorbing material by the flexible absorbing material matrix that step (1) and (2) obtain, no
Reflectance test is directly carried out in the case where patch micro-structure, as a result as shown in Figure 6.
Comparative example two
Embodiment five can also be used as flexible absorbing material by the flexible absorbing material matrix that step (1) and (2) obtain, no
Reflectance test is directly carried out in the case where patch micro-structure, as a result as shown in Figure 7.
Comparative example three
(1) the ratio mechanical stirring that carbonyl iron dust and silicon rubber are 4:1 in mass ratio is mixed, machine used is Shanghai
The digital display blender of Suo Ying experimental instruments and equipment limited production, mixing speed 400r/min, the time is 1h.
(2) slurry mixed in step (1) is cast on casting machine, makes the flexible absorbing material of thickness 1.5mm.
(3) size that sample is cut into 300mm*300mm is carried out reflectance test, test results are shown in figure 8.
It is above carry out needs when reflectance test the another side of the silicon rubber be bonded with micro-structure be bonded one piece it is smooth
Metal backing (it is also possible to coat silicone adhesive agent on silicon rubber, coats epoxy adhesive in the one side of metal backing,
Then silicone adhesive agent and epoxy adhesive are bonded), metal backing can also use copper foil using the FR4 plate for covering copper.
Above reflectance test is all GJB 2038-94 standard of being subject to.The test result of the above various embodiments and comparative example explanation:
1, from the visible thickness in flexible absorbing material matrix (80%) identical with the ratio of absorbent of Fig. 2,3,6 the case where
Under, Absorber Bandwidth of the flexible absorbing material more than -10dB without micro-structure (Fig. 6) is 12-18GHz.Equipped with micro-structure
(Fig. 2's, 3), when a is 2mm, the above Absorber Bandwidth of -10dB is 10-16.5GHz, and when a is 2.7mm, -10dB or more absorbs
Bandwidth is 8.5-12.5GHz, so Absorber Bandwidth is wider when a is 2mm.By Fig. 2 and Fig. 3 comparison as it can be seen that adjustment a's is sized so that
Reach the position of adjustment absorption peak.It is existing without using in the case where micro-structure, can only be by increasing thickness or increasing filler
Ratio adjusts the position of absorption peak, thus makes the sample weight gain more.
2, in the present invention, the overall thickness of the polyimide film equipped with micro-structure is 75-105 μm, wherein copper thickness 10-20
μm, the micro-structure of a 300mm*300mm only has 10g or so.As seen from Figure 8, thickness is 1.5mm under identical absorbent ratio
In the case where can be only achieved with assimilation effect similar in Fig. 2, and at this moment absorbing material by 300mm*300mm size increase weight 92g
Left and right.
It is 3, visible in the thickness of flexible absorbing material in the case where (65%) identical with the ratio of absorbent from Fig. 4,5,7,
There is no the flexible absorbing material of micro-structure (Fig. 7) to absorb within the scope of 1-18GHz almost without below -10dB.Equipped with micro-structure
(Fig. 4,5), when a is 2mm, the Absorber Bandwidth of -10dB or more is 14-18GHz, when a is 2.7mm, -10dB or more
Absorber Bandwidth is 11-17GHz.When not having micro-structure, bandwidth is obviously smaller, and Absorber Bandwidth is wider when a is 2.7mm, also shows a
The position for becoming large-sized adjustable absorption peak.
Therefore, micro-structure is introduced in silicon rubber, the proper ratio of wave absorbing agent and silicon rubber can cooperate with micro-structure, obtain
Obtain flexible absorbing material well.
Seven~embodiment of embodiment 12 is folded in micro-structure between flexible absorbing material matrix, and flexibility inhales wave material
The laminated layer sequence of material is as shown in Figure 9, wherein 1 is the first flexible absorbing material matrix, and 2 be the polyimides that load has micro-structure
Film, 3 be the second flexible absorbing material matrix, and 4 be the metal backing of stickup when carrying out reflectance test.Utilize flexible absorbing material
The thickness of matrix adjusts position of the micro-structure interlayer in integral material, and keeps the overall thickness of absorbing material matrix to be all
1.2±0.1mm。
Embodiment seven
(1) the ratio mechanical stirring that carbonyl iron dust and silicon rubber are 4:1 in mass ratio is mixed, mixing speed 300-
500r/min, time are 0.5-1h, and in this example, mixing speed 400r/min, the time is 1h.Wherein, used is Shanghai rope
The digital display blender of experimental instruments and equipment limited production is reflected, silicon rubber uses A, B two-part liquid silicon rubber, mass ratio A:B=
10:1.
(2) slurry mixed in step (1) is cast on casting machine, respectively obtains thickness 0.9 ± 0.05mm (this example
In be 0.9mm) and 0.3 ± 0.05mm (being 0.3mm in this example) the first and second flexible absorbing material matrixes.On casting machine
Specific casting step is as follows:
The slurry mixed in step (1) is added hopper, the width of hopper is 27-30cm, casting knife and conveyer belt
Gap is the thickness of flexible absorbing material matrix, and the gap of casting knife and conveyer belt is respectively 0.9mm and 0.3mm in this example, is passed
The speed for sending band is 0.1-0.5m/min.Heater box is opened after the completion of slurry curtain coating, heating temperature is 80~120 DEG C, the time
1.5-2h, slurry curing are completed, and the flexible absorbing material matrix of thickness 0.9mm and 0.3mm are respectively obtained.
(3) respectively a table on a surface of the first flexible absorbing material matrix and the second flexible absorbing material matrix
Face is uniformly coated with one layer of single-component silicon glue caking agent.
(4) micro-structure being made on polyimide film with copper foil, micro-structure is uniformly arranged at equal intervals on polyimide film,
As shown in Figure 1, wherein the range of a is 2-2.7mm, it is 0.9mm, a=2mm in this example that it is constant, which to be spaced b, on the two sides of polyimides
It is uniformly coated with one layer of epoxy adhesive, epoxy adhesive can use epoxy AB glue.
(5) by the polyimides for being equipped with micro-structure be pasted onto the second flexible absorbing material matrix while on, will
Be not provided with the polyimides of micro-structure be pasted onto the first flexible absorbing material matrix while on, room temperature 48 hours
Afterwards, bonding agent curing molding obtains flexible absorbing material.
Obtained flexible absorbing material is cut into the square of 300mm*300mm, the metal backing 4 of epoxy adhesive will be coated with
Be pasted on the another side of the second flexible absorbing material matrix on one side, reflectance test, test result are used for after curing molding
As shown in Figure 10.
Embodiment eight
Difference with embodiment seven is: a=2.7mm in micro-structure.Obtained flexible absorbing material is cut into 300mm*
The square of 300mm is used for reflectance test, and test results are shown in figure 10.
Embodiment nine
Difference with embodiment seven is: the thickness of the first and second flexible absorbing material matrixes is 0.6mm.It will obtain
Flexible absorbing material be cut into the square of 300mm*300mm, be used for reflectance test, test result is as shown in figure 11.
Embodiment ten
Difference with embodiment eight is: the thickness of the first and second flexible absorbing material matrixes is 0.6mm.It will obtain
Flexible absorbing material be cut into the square of 300mm*300mm, be used for reflectance test, test result is as shown in figure 11.
Embodiment 11
Difference with embodiment seven is: the thickness of the first and second flexible absorbing material matrixes be respectively 0.3mm and
0.9mm.Obtained flexible absorbing material is cut into the square of 300mm*300mm, is used for reflectance test, test result such as Figure 12
It is shown.
Embodiment 12
Difference with embodiment eight is: the thickness of the first and second flexible absorbing material matrixes be respectively 0.3mm and
0.9mm.Obtained flexible absorbing material is cut into the square of 300mm*300mm, is used for reflectance test, test result such as Figure 12
It is shown.
Comparative example four
(1) the ratio mechanical stirring that carbonyl iron dust and silicon rubber are 4:1 in mass ratio is mixed, machine used is Shanghai
The digital display blender of Suo Ying experimental instruments and equipment limited production, mixing speed 400r/min, the time is 1h.
(2) slurry mixed in step (1) is cast on casting machine, specific as follows:
Hopper is added in the slurry mixed in step (1), the width of hopper is 27-30cm, casting knife and conveyer belt
Gap is 1.4 and 1.2mm respectively, and the speed of conveyer belt is 0.1-0.5m/min.Heater box, heating are opened after the completion of slurry curtain coating
Temperature is 80~120 DEG C, time 1.5-2h, and slurry curing is completed, and respectively obtains thickness 1.4 ± 0.1mm and 1.2 ± 0.1mm
First and second flexible absorbing materials.
(3) size that the flexible absorbing material of 1.4mm and 1.2mm is cut into 300mm*300mm is carried out reflectivity survey respectively
Examination.1.2mm test result is as shown in figure 13, and the test result of 1.4mm is as shown in figure 14.
Above reflectance test is all GJB 2038-94 standard of being subject to.The test of the above various embodiments and comparative example
As a result illustrate: visible when micro-structure is further away from metal backing from Figure 10,11,12, the absorption peak of flexible absorbing material is more to low
Frequency displacement is dynamic.The Absorber Bandwidth of -10dB in all curves in Figure 10,11,12, have it is wide also have it is narrow, when micro-structure and metal backing away from
From being 0.3mm, and when a=2.7mm, Absorber Bandwidth is most wide, reaches 11-18GHz or so, compared with the curve of Figure 13, hence it is evident that can
See that micro-structure interlayer increases the Absorber Bandwidth of flexible absorbing material, illustrates suitable microstructure size and suitable interlayer position
It sets, can not only adjust the position of absorption peak, moreover it is possible to increase Absorber Bandwidth.
The prior art with increase absorbing material thickness and absorbent ratio come realize adjustment absorption peak position.Figure 14
It is the absorbing material without micro-structure interlayer of 1.4mm, performance and the property for thering is micro-structure interlayer to absorb best absorbing material
Can be close, at this moment absorbing material (300mm*300mm size) weight gain 60g or so, and the weight of micro-structure (300mm*300mm size)
Amount only has 10g or so.
In conclusion micro-structure interlayer can increase the bandwidth of absorbing material, by adjusting the position of interlayer, moreover it is possible to adjust
The position of absorbing material absorption peak, and the overall weight of flexible absorbing material increases seldom.
The method that the present invention also provides a kind of to be added micro-structure interlayer between silicone rubber matrix, in an embodiment
In, the silicone rubber matrix includes the first silicone rubber matrix and the second silicone rubber matrix, and the micro-structure is made of an electrically conducting material
And be supported in the one side of polyimide film, the micro-structure gap periods such as on polyimide film are arranged, the method packet
Include following steps:
(1) through hole 5 is beaten in the interval of every two adjacent micro-structure 21, the through hole 5 is from the one of polyimide film 2
Face is through to another side, as shown in figure 16;
(2) silicon rubber is formed a film with the mode of curtain coating or scraper, and be cured in semi-cured state to obtain the first silicon
Rubber matrix;
It (3) will be on the first silicone rubber matrix of the polyimide film of step (1) being layered under semi-cured state on one side;
(4) silicon rubber is made into second with the mode of curtain coating or scraper on the another side of the polyimide film of step (1)
Silicone rubber matrix obtains composite material;
(5) composite material is fully cured, obtains flexible absorbing material.
Wherein, it prepares the first silicone rubber matrix and the detailed step of the second silicone rubber matrix preferably includes:
A, silicon rubber and magnetic material powder are made into slurry, in the slurry, the magnetic material powder and silicon rubber
Weight ratio is 13:7~4:1;
B, hopper is added in the slurry mixed in step A, the width of hopper is 27-30cm, casting knife and conveyer belt
Gap is 0.5-1mm, and the speed of conveyer belt is 0.1-0.5m/min.Heater box is opened after the completion of slurry curtain coating, heating temperature is
80~120 DEG C, time 10-30 minute makes slurry semi-solid preparation obtain the first silicone rubber matrix.
C, the second silicone rubber matrix is cast on the polyimide film completed, specifically: the slurry that will be mixed in step A
It is added the second hopper, the width of the second hopper is 27-30cm, and the gap of the second casting knife and conveyer belt is 1-2mm, conveyer belt
Speed is 0.1-0.5m/min.Heater box is opened after the completion of slurry curtain coating, heating temperature is 80~120 DEG C, time 1.5-2h, slurry
Material is fully cured to obtain the second silicone rubber matrix.
Correspondingly, implementing the present invention also provides a kind of flexible absorbing material being prepared by above-mentioned method at one
In mode, as shown in figs, including the first silicone rubber matrix 1, the second silicone rubber matrix 3, it is folded in the first silicon rubber
Microstructured layers between matrix body 1 and the second silicone rubber matrix 3, the microstructured layers include polyimide film 2 and are supported on
Micro-structure 21 in the polyimide film one side, the micro-structure are made of an electrically conducting material, and the micro-structure is in polyimides
Gap periods are arranged on film etc., and the interval of every two adjacent micro-structure has through hole 5, and the through hole 5 is from polyimides
Film 2 is through to another side on one side, filled with the first silicone rubber matrix of preparation and/or the second silicon rubber base in the through hole
The raw material of body, the raw material include silicon rubber.
It in a preferred embodiment, further include magnetic material powder, the magnetic material powder and silicon rubber in the raw material
Weight ratio be 13:7~4:1.
It is illustrated below by way of more specific embodiment, in following embodiment, silicon rubber uses Dow corning DC184
Silicon rubber is covered with the micro-structure of copper foil etching on polyimides membrane carrier.Iron powder is carbonyl iron dust (the ew iron of BASF production
Powder).
Embodiment 13
(1) it punches, is punched in the case where not destroying micro-structure, such as Figure 16 institute at the gap position of adjacent micro-structure
Show.
(2) silicon rubber is made into the film of 0.5-1mm thickness with the mode of curtain coating, with a thickness of 0.6mm in this example, and makes thin
Film is cured in semi-cured state, can be subject to tack-free, obtains the first silicone rubber matrix;
(3) polyimide film of step (1) is not set to the first silicon rubber of micro-structure being layered under semi-cured state on one side
On matrix;
(4) use curtain coating or the mode of scraper by silicon rubber in the one side that the polyimide film of step (1) is equipped with micro-structure
It is made into the second silicone rubber matrix of 0.5-1mm thickness, in this example, with a thickness of 0.6mm, obtains composite material;
(5) it will be fully cured after the composite material normal temperature shelf 48 hours, obtain flexible absorbing material.
Embodiment 14
(1) it punches, is punched in the case where not destroying micro-structure, such as Figure 15 institute at the gap position of adjacent micro-structure
Show.
(2) silicon rubber and ew iron powder are made into slurry, the weight content of ew iron powder is 65%~80% in the slurry, this example
In be 80%, then with being cast or slurry is made into the film of 0.5-1mm thickness by the mode of scraper, in this example, with a thickness of
0.6mm, and make film hardening to being in semi-cured state, can be subject to tack-free, obtain the first silicone rubber matrix;
It (3) will be on the first silicone rubber matrix of the polyimide film of step (1) being layered under semi-cured state on one side;
(4) silicon rubber and ew iron powder are made into slurry, the weight content of ew iron powder is 65%~80% in the slurry, this example
In be 80%, then on the another side of the polyimide film of step (1) be cast mode slurry is made into 0.5-1mm thickness
The second silicone rubber matrix obtain composite material with a thickness of 0.6mm in this example;
(5) it will be fully cured after the composite material normal temperature shelf 48 hours, obtain flexible absorbing material.
To in embodiment 13 and 14 product carry out peel strength test, due to test peel strength when micro-structure not
It tears, but silicon rubber has been torn to shreds, it can thus be assumed that the peel strength of silicon rubber is greater than its tensile strength, by according to DOW CORNING
The peel strength about 7.1*10 that the tensile strength provided in the specification of 184 silicon rubber is released6N/m。
Solidified in the prior art using ultraviolet light, increases equipment and increase cost again, and bonding agent changes product
Thickness, interiors of products is also easy to produce bubble, and the method more than can not have to binder, moreover it is possible to reach adhesion strength
To bulk strength, interiors of products is also without bubble.
The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that
Specific implementation of the invention is only limited to these instructions.For those skilled in the art to which the present invention belongs, it is not taking off
Under the premise of from present inventive concept, several equivalent substitute or obvious modifications can also be made, and performance or use is identical, all answered
When being considered as belonging to protection scope of the present invention.
Claims (12)
1. the adhesive method of a kind of silicon rubber and object, which is characterized in that the object uses the material different from the silicon rubber
Material, includes the following steps:
(1) epoxy adhesive is uniformly coated on the adhesive surface of the object, and being baked to keeps the epoxy adhesive solid in half
Change state;
(2) one layer of silicone adhesive agent is uniformly coated on the adhesive surface of the silicon rubber;
(3) it will be coated in step (1) in the adhesive surface and step (2) of the object of the epoxy adhesive coated with described
Pressing after the adhesive surface of the silicon rubber of silicone adhesive agent is bonding;
(4) epoxy adhesive and the silicone adhesive agent is fully cured.
2. adhesive method as described in claim 1, it is characterised in that: the object uses plastics or conductive material.
3. adhesive method as claimed in claim 1 or 2, it is characterised in that: further include following steps before step (1): will
Silicon rubber curtain coating or the mode of scraper are made into the film of 0.5-1mm thickness.
4. adhesive method as claimed in claim 1 or 2, it is characterised in that: the epoxy adhesive is epoxy AB glue, wherein
The epoxy AB glue includes component A and B component and mixes by the mass ratio of the component A and B component for 100:43.
5. adhesive method as claimed in claim 1 or 2, it is characterised in that: using described in vacuum bag pressure method progress in step (3)
Pressing.
6. a kind of flexibility absorbing material, it is characterised in that: including the first silicon rubber and polyimide film, the polyimide film
It is equipped at least one micro-structure on one side, the micro-structure is made of an electrically conducting material, one equipped with micro-structure of polyimide film
It is uniformly coated with epoxy bonds oxidant layer on face, is uniformly coated with silicone adhesive oxidant layer in the one side of first silicon rubber, will gather
Acid imide film be equipped with micro-structure be fitted in the first silicon rubber coated with silicon rubber binder while on, the silicon
Pressing after gluing knot oxidant layer and the epoxy bonds oxidant layer are bonding.
7. flexibility absorbing material as claimed in claim 6, it is characterised in that: the flexibility absorbing material further includes the second silicon rubber
Glue is also coated with epoxy bonds oxidant layer, second silicon rubber in the one side for being not provided with micro-structure of the polyimide film
One side be coated with silicone adhesive oxidant layer, silicone adhesive oxidant layer and the polyimide film in the one side of second silicon rubber
The epoxy bonds oxidant layer being not provided in the one side of micro-structure it is bonding after pressing.
8. flexible absorbing material as claimed in claims 6 or 7, it is characterised in that: the flexibility absorbing material further includes inhaling wave
Agent, the wave absorbing agent are magnetic material, and the wave absorbing agent and first silicon rubber mix integral, wherein the wave absorbing agent
Mass ratio with first silicon rubber is between 13:7~4:1.
9. flexibility absorbing material as claimed in claim 7, it is characterised in that: the flexibility absorbing material further includes wave absorbing agent,
The wave absorbing agent is magnetic material, and the wave absorbing agent and second silicon rubber mix integral, wherein the wave absorbing agent and institute
The mass ratio of the second silicon rubber is stated between 13:7~4:1.
10. the flexible absorbing material as described in claim 6,7 or 9, it is characterised in that: the micro-structure with a thickness of 10-20 μ
M, the polyimide film with a thickness of 65-85 μm, the micro-structure on polyimide film etc. gap periods arrange.
11. flexibility absorbing material as claimed in claim 8, it is characterised in that: the micro-structure with a thickness of 10-20 μm, institute
State polyimide film with a thickness of 65-85 μm, the micro-structure on polyimide film etc. gap periods arrange.
12. flexibility absorbing material as claimed in claim 7, it is characterised in that: first silicon rubber and the second silicon rubber
Overall thickness is 1.2 ± 0.1mm.
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