CN102092137A - High-temperature high-pressure vacuum nozzle and sealing method thereof - Google Patents

High-temperature high-pressure vacuum nozzle and sealing method thereof Download PDF

Info

Publication number
CN102092137A
CN102092137A CN2010105435340A CN201010543534A CN102092137A CN 102092137 A CN102092137 A CN 102092137A CN 2010105435340 A CN2010105435340 A CN 2010105435340A CN 201010543534 A CN201010543534 A CN 201010543534A CN 102092137 A CN102092137 A CN 102092137A
Authority
CN
China
Prior art keywords
annular groove
film
substrate
vacuum nozzle
film pad
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN2010105435340A
Other languages
Chinese (zh)
Other versions
CN102092137B (en
Inventor
赵伟栋
蔡勇
蒋文革
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Aerospace Research Institute of Materials and Processing Technology
Original Assignee
Aerospace Research Institute of Materials and Processing Technology
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Aerospace Research Institute of Materials and Processing Technology filed Critical Aerospace Research Institute of Materials and Processing Technology
Priority to CN2010105435340A priority Critical patent/CN102092137B/en
Publication of CN102092137A publication Critical patent/CN102092137A/en
Application granted granted Critical
Publication of CN102092137B publication Critical patent/CN102092137B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Casting Or Compression Moulding Of Plastics Or The Like (AREA)

Abstract

The invention relates to a high-temperature high-pressure vacuum nozzle and a sealing method thereof. The high-temperature high-pressure vacuum nozzle comprises a clamp nut, a compression ring, a pipe joint and a base plate, wherein the base plate is of a truncated cone structure, the upper surface of the base plate is processed with one, two or three circular grooves, the lower surface of the compression ring is processed with tenons which are matched with the circular grooves, a plurality of layers of film gaskets are arranged between the matching surfaces of the base plate and the compression ring, each film gasket is of a sheet structure with holes in the middle, is 0.05-0.1mm in thickness, and is made from nylon, fluoroplastic or polyimide. By processing one to three sealing grooves on the upper surface of the truncated cone of the base plate and the matched tenons on the lower surface of the compression ring, the high-temperature high-pressure vacuum nozzle plays the effect of a sealing gasket as the flexible film gaskets can necessarily deform under the pressing force, realizes the mechanical sealing between the compression ring and the base plate by the compression force of the nut and the deformation of the film gaskets, and is able to resist high temperature of 300 DEG C and above and pressure of 1.0MPa or above. The vacuum nozzle provided by the invention is made of metal materials, and the film gaskets are made from materials which have the temperature grade higher than or equal to the film material of vacuum bags and can meet requirements on molding process of high-temperature resistant composite autoclaves.

Description

A kind of HTHP vacuum nozzle and encapsulating method
Technical field
The present invention relates to a kind of vacuum nozzle and encapsulating method, (temperature>300 ℃, pressure>1.0MPa) the vacuum bag sealing belongs to the autoclave molding technical field with vacuum nozzle and encapsulating method with high temperature high voltage resistant particularly to relate to a kind of polymer matrix composites autoclave forming process.
Background technology
Vacuum bag/autoclave forming process remains the moulding process of high-quality resin-based compound material component at present.The positiver sealing of vacuum bag is indispensable link and a precondition in this technology.Vacuum nozzle is the blank area in the vacuum bag system, its effect is that the vacuum system with vacuum bag system and autoclave couples together by the metal vacuum pipeline, under the state of the outside HTHP of vacuum bag, guarantee to keep in the vacuum bag system vacuum of appointment, realize effective compacting of composite element, reduce the hole of composite element inside, improve component quality.This is particularly important in the manufacturing of the expensive large-sized structural parts product of Aero-Space, can solve the technology bottleneck difficult problem that product is made, and reduces scrappage, guarantees the delivery time node.
Vacuum nozzle generally is made up of substrate, sealing gasket, pressing plate and clamp nut, and existing vacuum nozzle sealing gasket adopts silicane rubber plate usually, when screwing clamp nut, plays the effect of sealing ring under the effect of pressure.The maximum operation (service) temperature of silicane rubber plate is about 230 ℃.Practice shows that existing vacuum nozzle can satisfy the moulding of members such as epoxy resin-base composite material, and the solidification temperature of epoxy generally is about 170 ℃, and pressure is about 0.6MPa.But, moulding for fire resistant resin based composite material components such as bismaleimide resin, polyimide resins, must adopt more than 300 ℃ and the above HTHP of 1.0MPa, just can overcome the frictional resistance of resin, realize the softening mobile of resin, composite compacting the most at last obtains high-quality composite and member thereof.The weak point that prior art exists is a silicane rubber plate aging cracking under long-time high-temperature and high-pressure conditions, lose necessary strength and elasticity, even form the perforation that connects, cause the vacuum bag system vacuum to leak, can not realize the compacting of member, finally cause scrapping of member.In order to solve this difficult problem, need manufacture and design a kind of novel high temperature high voltage resistant vacuum nozzle, satisfy the autoclave forming process requirement of polyimide resin based composites structure member.
Summary of the invention
Technology of the present invention is dealt with problems and is: overcome the deficiencies in the prior art, provide a kind of ability more than 300 ℃ high temperature and 1.0MPa with the high temperature high voltage resistant vacuum nozzle and the encapsulating method of upward pressure, realize that vacuum bag is connected with the reliable of vacuum system, satisfy the autoclave forming process requirement of bismaleimide resin, polyimide resin based composites structure member.
Technical solution of the present invention is: a kind of HTHP vacuum nozzle, comprise clamp nut, pressure ring, pipe joint and substrate, described substrate is a frustum cone structure, upper surface processing 1,2 or 3 road annular grooves, the pressure ring lower surface is processed with the tenon that cooperates with annular groove, places several layers film pad between the mating surface of substrate and pressure ring, and the film pad is middle laminated structure with holes, thickness is 0.05~0.1mm, and material is nylon, fluoroplastics or polyimides.
Described film pad interstitial hole diameter is greater than the pipe joint external diameter and less than the internal diameter of outer annular groove.
Described film pad is circular or square, and full-size is greater than 10~20mm of outermost annular groove external diameter.
Interval between the described annular groove is not less than 5mm, and the diameter of annular groove is 3~5mm, and outer annular groove is 10~20mm apart from the distance in substrate center hole.
The mismatch error of described tenon and annular groove is 0.1~0.2mm, and promptly the diameter of tenon is less than 0.1~0.2mm of annular groove diameter.
Described film pad is 1~6 layer.
A kind of encapsulating method that utilizes the HTHP vacuum nozzle, realize by following steps:
The first step, at upper surface of base plate processing 1~3 road annular groove, the tenon that cooperates with annular groove in the corresponding processing of pressure ring lower surface;
Second step, film processed pad, film pad are middle circular or square slab organization with holes, and thickness is 0.05~0.1mm, middle bore dia is greater than the pipe joint external diameter and less than the internal diameter of outer annular groove, full-size is greater than 10~20mm of outermost annular groove external diameter;
In the 3rd step, on the substrate of having processed annular groove, place 1~3 layer film pad;
In the 4th step, on the film pad, place the vacuum bag that will seal;
In the 5th step, on vacuum bag, place 1~3 layer film pad;
In the 6th step, obtain on the film pad pressure ring being installed in the 5th step;
The 7th step, with clamp nut is installed on the pressure ring, tighten, substrate, film pad, vacuum bag and pressure ring are compressed.
The present invention compared with prior art beneficial effect is:
(1) the present invention adopts at substrate round platform upper surface processing 1~3 road sealed groove, cooperate the processing tenon at the pressure ring lower surface simultaneously, utilize flexible film pad that necessary deformation takes place under the effect of thrust again, played the effect of sealing gasket, the thrust by nut and the deformation of film can realize the mechanical seal between pressure ring and the substrate, make ability of the present invention more than 300 ℃ high temperature and 1.0MPa with upward pressure;
(2) material of the vacuum nozzle of the present invention's employing is a metal material, and the temperature resistant grade of the material that the film pad is selected for use is higher than vacuum bag thin-film material or identical with the vacuum bag film, can satisfy the requirement of high temperature resistant composite autoclave forming process;
(3) up to the present the present invention has carried out polyimide resin based composites vacuum bag/autoclave engineer testing more than 30 times, experimental condition is 400 ℃ of air pressure 1.5MPa, air themperatures, time is no less than 12 hours, no vacuum leak phenomenon takes place, result of the test shows that the vacuum bag that this vacuum nozzle can solve HTHP composite autoclave forming process is connected with the reliable of vacuum system, has guaranteed the moulding manufacturing of high temperature resistant advanced composite material;
(4) processing dimension determined of the present invention under the prerequisite that guarantees sealing, has guaranteed the operability when processing is installed.
Description of drawings
Fig. 1 is a structural representation of the present invention;
Fig. 2 is a base plate bottom structural representation of the present invention;
Fig. 3 is the partial enlarged drawing of Fig. 2 A-A, B-B direction;
Fig. 4 is three kinds of structural representations of substrate of the present invention;
Fig. 5 is the pressure plate structure schematic diagram that cooperates with substrate among Fig. 4;
Fig. 6 is a flow chart of the present invention.
The specific embodiment
The present invention as shown in Figure 1, comprise clamp nut 1, pressure ring 2, pipe joint 3 and substrate 4, substrate 4 is a frustum cone structure, upper surface processing 1~3 road annular groove 41, pressure ring 2 lower surfaces are processed with the tenon 21 that cooperates with annular groove 41, the quantity of tenon 21 is consistent with annular groove 41, places several layers film pad between the mating surface of substrate 4 and pressure ring 2.
Substrate 4 upper surfaces processing 1~3 road sealed groove, the bottom of substrate 4 also needs shown in Fig. 2,3, and the criss-cross air slot 43 that processing is communicated with centre bore 42 mutually also can be the arbitrary shape except that cross, and be communicated with centre bore 42.
Pressure ring 2 and substrate 4 can be selected 1 road (a type), 2 roads (b type) and any one form of 3 roads (c type) shown in Fig. 3,4.Pressure ring 2 materials can be metal materials such as ordinary steel, aluminium, copper.
The vacuum nozzle material can be metal materials such as ordinary steel, aluminium, copper.
The film pad is middle laminated structure with holes, and thickness is 0.05~0.1mm.Film pad interstitial hole diameter is greater than the pipe joint external diameter and less than the internal diameter of outer annular groove.The film pad is circular or square, and full-size is greater than 10~20mm of outermost annular groove external diameter.The film pad is 1~6 layer, and the film pad can be selected vacuum bag film homogeneous material, also can select the higher nylon of temperature resistant grade, fluoroplastics, the film that polyimides is made, preferably select vacuum bag film homogeneous material, the leftover pieces that get during the vacuum bag encapsulation get final product, and conveniently are easy to get.
Interval between the annular groove 41 is not less than 5mm, and the diameter of annular groove is 3~5mm, and outer annular groove is 10~20mm apart from the distance in substrate center hole.
The mismatch error of tenon and annular groove is 0.1~0.2mm, and promptly the diameter of tenon is less than 0.1~0.2mm of annular groove diameter.
Encapsulating method: during the vacuum bag encapsulation, on substrate, place one or more layers film pad with holes, the aperture is slightly larger than the pipe joint external diameter, on the vacuum bag film, process a slightly larger in diameter then in the circular hole of pipe joint external diameter, the vacuum bag film is placed on the substrate by pipe joint, again one or more layers is placed on the substrate with the film pad, then loads onto pressure ring, with nut each part mentioned above is compressed again.Be connected with vacuum system with vacuum metal pipe at last and can realize that vacuum nozzle is connected with the reliable of vacuum system.Above-mentioned film can be selected vacuum bag film homogeneous material, also can select the higher nylon of temperature resistant grade, fluoroplastics, the film that polyimides is made, thickness is selected 0.05mm~0.1mm, preferably select vacuum bag film homogeneous material, the vacuum bag leftover pieces get final product, and conveniently are easy to get.
Concrete steps realize by following steps as shown in Figure 4:
1, at upper surface of base plate processing 1~3 road annular groove, the tenon that cooperates with annular groove in the corresponding processing of pressure ring lower surface;
2, film processed pad, the film pad is middle circular or square slab organization with holes, thickness is 0.05~0.1mm, and middle bore dia is greater than the pipe joint external diameter and less than the internal diameter of outer annular groove, full-size is greater than 10~20mm of outermost annular groove external diameter;
3, on the substrate of having processed annular groove, place 1~3 layer film pad;
4, on the film pad, place the vacuum bag that will seal;
5, on vacuum bag, place 1~3 layer film pad;
6, on the film pad of previous step, pressure ring is installed;
7, with clamp nut is installed on the pressure ring, tighten, substrate, film pad, vacuum bag and pressure ring are compressed.
Describe in detail below in conjunction with specific embodiment:
Embodiment 1
The moulding of polyimide resin based composites, the vacuum bag film is selected the 0.05mm thick polyimide film for use, and sealing joint strip is selected SM5160 for use.The substrate of vacuum nozzle, pipe joint, nut all adopt steel Q235-A level, and pressure ring can be selected the manufacturing of steel Q235-A level for use.Structure choice a type.
During the vacuum bag encapsulation, on substrate, place one deck film pad with holes, the aperture is slightly larger than the pipe joint external diameter, on the vacuum bag film, process a slightly larger in diameter then in the circular hole of pipe joint external diameter, the vacuum bag film is placed on the substrate by pipe joint, again one deck is placed on the substrate with the film pad, then loads onto pressure ring, with nut each part mentioned above is compressed again.Be connected with vacuum system with vacuum metal pipe at last and can realize that vacuum nozzle is connected with the reliable of vacuum system.Experimental condition: autoclave air pressure 1.5MPa, 399 ℃ of air themperatures, 20 hours time.Result of the test: the vacuum nozzle sealing is intact, and vacuum bag does not have leakage.
Embodiment 2
The moulding of polyimide resin based composites, the vacuum bag film is selected the 0.05mm thick polyimide film for use, and sealing joint strip is selected SM5160 for use.The substrate of vacuum nozzle, pipe joint, nut all adopt steel Q235-A level, and pressure ring aluminium 1035 is made structure choice b type.
During the vacuum bag encapsulation, on substrate, place two-layer film pad with holes, the aperture is slightly larger than the pipe joint external diameter, on the vacuum bag film, process a slightly larger in diameter then in the circular hole of pipe joint external diameter, the vacuum bag film is placed on the substrate by pipe joint, again the double-layer films pad is placed on the substrate, then loads onto pressure ring, with nut each part mentioned above is compressed again.Be connected with vacuum system with vacuum metal pipe at last and can realize that vacuum nozzle is connected with the reliable of vacuum system.Experimental condition: autoclave air pressure 1.5MPa, 399 ℃ of air themperatures, 20 hours time.Result of the test: the vacuum nozzle sealing is intact, and vacuum bag does not have leakage.
Embodiment 3
The moulding of polyimide resin based composites, the vacuum bag film is selected the 0.075mm thick polyimide film for use, and sealing joint strip is selected SM5160 for use.The substrate of vacuum nozzle, pipe joint, nut and pressure ring all adopt steel Q235-A level, structure choice c type.
During the vacuum bag encapsulation, on substrate, place two-layer film pad with holes, the aperture is slightly larger than the pipe joint external diameter, on the vacuum bag film, process a slightly larger in diameter then in the circular hole of pipe joint external diameter, the vacuum bag film is placed on the substrate by pipe joint, again the double-layer films pad is placed on the substrate, then loads onto pressure ring, with nut each part mentioned above is compressed again.Be connected with vacuum system with vacuum metal pipe at last and can realize that vacuum nozzle is connected with the reliable of vacuum system.Experimental condition: autoclave air pressure 1.5MPa, 399 ℃ of air themperatures, 20 hours time.Result of the test: the vacuum nozzle sealing is intact, and vacuum bag does not have leakage.
Embodiment 4
The moulding of bimaleimide resin base composite material, the vacuum bag film is selected the 0.05mm thick polyimide film for use, and sealing joint strip is selected SM5160 for use.The substrate of vacuum nozzle, pipe joint, nut all adopt steel Q235-A level, and structure is selected a type for use.
During the vacuum bag encapsulation, on substrate, place two-layer film pad with holes, the aperture is slightly larger than the pipe joint external diameter, on the vacuum bag film, process a slightly larger in diameter then in the circular hole of pipe joint external diameter, the vacuum bag film is placed on the substrate by pipe joint, again the double-layer films pad is placed on the substrate, then loads onto pressure ring, with nut each part mentioned above is compressed again.Be connected with vacuum system with vacuum metal pipe at last and can realize that vacuum nozzle is connected with the reliable of vacuum system.Experimental condition: autoclave air pressure 1.0MPa, 300 ℃ of air themperatures, 16 hours time.Result of the test: the vacuum nozzle sealing is intact, and vacuum bag does not have leakage.
Embodiment 5
The thick HS6262 nylon film of 0.075mm is selected in the moulding of epoxy resin-base composite material, vacuum bag film for use, and sealing joint strip is selected SM9151 for use.The substrate of vacuum nozzle, pipe joint, nut all adopt steel Q235-A level, and pressure ring can aluminium 1035 be made, and structure is selected a type for use.
During the vacuum bag encapsulation, on substrate, place two-layer film pad with holes, the aperture is slightly larger than the pipe joint external diameter, on the vacuum bag film, process a slightly larger in diameter then in the circular hole of pipe joint external diameter, the vacuum bag film is placed on the substrate by pipe joint, again the double-layer films pad is placed on the substrate, then loads onto pressure ring, with nut each part mentioned above is compressed again.Be connected with vacuum system with vacuum metal pipe at last and can realize that vacuum nozzle is connected with the reliable of vacuum system.Experimental condition: autoclave air pressure 0.6MPa, 200 ℃ of air themperatures, 10 hours time.Result of the test: the vacuum nozzle sealing is intact, and vacuum bag does not have leakage.
The unspecified part of the present invention belongs to general knowledge as well known to those skilled in the art.

Claims (7)

1. HTHP vacuum nozzle, comprise clamp nut (1), pressure ring (2), pipe joint (3) and substrate (4), it is characterized in that: described substrate (4) is a frustum cone structure, upper surface processing 1~3 road annular groove (41), pressure ring (2) lower surface is processed with the tenon (21) that cooperates with annular groove (41), between the mating surface of substrate (4) and pressure ring (2), place several layers film pad, the film pad is middle laminated structure with holes, thickness is 0.05~0.1mm, and material is nylon, fluoroplastics or polyimides.
2. a kind of HTHP vacuum nozzle according to claim 1 is characterized in that: described film pad interstitial hole diameter is greater than pipe joint (3) external diameter and less than the internal diameter of outer annular groove (41).
3. a kind of HTHP vacuum nozzle according to claim 1 is characterized in that: described film pad is for circular or square, and full-size is greater than 10~20mm of outermost annular groove external diameter.
4. a kind of HTHP vacuum nozzle according to claim 1, it is characterized in that: the interval between the described annular groove (41) is not less than 5mm, the diameter of annular groove is 3~5mm, and outer annular groove is 10~20mm apart from the distance of substrate (4) centre bore.
5. a kind of HTHP vacuum nozzle according to claim 1 is characterized in that: described tenon (21) is 0.1~0.2mm with the mismatch error of annular groove (41), and promptly the diameter of tenon (21) is less than 0.1~0.2mm of annular groove (41) diameter.
6. a kind of HTHP vacuum nozzle according to claim 1 is characterized in that: described film pad is 1~6 layer.
7. encapsulating method that utilizes the described HTHP vacuum nozzle of claim 1 is characterized in that realizing by following steps:
The first step, at substrate (4) upper surface processing 1~3 road annular groove (41), the tenon (21) that cooperates with annular groove in the corresponding processing of pressure ring (2) lower surface;
Second step, the film processed pad, the film pad is middle circular or square slab organization with holes, thickness is 0.05~0.1mm, middle bore dia is greater than pipe joint (3) external diameter and less than the internal diameter of outer annular groove (41), full-size is greater than 10~20mm of outermost annular groove external diameter;
In the 3rd step, go up placement 1~3 layer film pad at the substrate (4) of having processed annular groove (41);
In the 4th step, on the film pad, place the vacuum bag that will seal;
In the 5th step, on vacuum bag, place 1~3 layer film pad;
In the 6th step, on the film pad in the 5th step, pressure ring (2) is installed;
The 7th step, with clamp nut (1) is installed on the pressure ring, tighten, substrate (4), film pad, vacuum bag and pressure ring (2) are compressed.
CN2010105435340A 2010-11-12 2010-11-12 High-temperature high-pressure vacuum nozzle and sealing method thereof Active CN102092137B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010105435340A CN102092137B (en) 2010-11-12 2010-11-12 High-temperature high-pressure vacuum nozzle and sealing method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010105435340A CN102092137B (en) 2010-11-12 2010-11-12 High-temperature high-pressure vacuum nozzle and sealing method thereof

Publications (2)

Publication Number Publication Date
CN102092137A true CN102092137A (en) 2011-06-15
CN102092137B CN102092137B (en) 2013-06-26

Family

ID=44125493

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2010105435340A Active CN102092137B (en) 2010-11-12 2010-11-12 High-temperature high-pressure vacuum nozzle and sealing method thereof

Country Status (1)

Country Link
CN (1) CN102092137B (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105716964A (en) * 2016-04-28 2016-06-29 中南大学 Sealed electric conduction device capable of guiding pulse current into autoclave and sealed electronic conduction method capable of guiding pulse current into autoclave
CN106696304A (en) * 2016-11-23 2017-05-24 安徽佳力奇碳纤维科技股份公司 Carbon fiber composite material vacuumizing device and vacuumizing method thereof
CN106827577A (en) * 2016-11-23 2017-06-13 安徽佳力奇碳纤维科技股份公司 A kind of carbon fibre composite vacuum bag assembly and its vacuum pumping method

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1749079A (en) * 2005-10-18 2006-03-22 成都飞机工业(集团)有限责任公司 Method for producing magnetic suspension vehicle headstock and its sandwich structure
CN1775507A (en) * 2005-10-18 2006-05-24 成都飞机工业(集团)有限责任公司 Thermal forming method for PMI foam laminated structure
CN101782029A (en) * 2009-01-15 2010-07-21 北京航空航天大学 Device for testing flow characteristics of gas-gas nozzle

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1749079A (en) * 2005-10-18 2006-03-22 成都飞机工业(集团)有限责任公司 Method for producing magnetic suspension vehicle headstock and its sandwich structure
CN1775507A (en) * 2005-10-18 2006-05-24 成都飞机工业(集团)有限责任公司 Thermal forming method for PMI foam laminated structure
CN101782029A (en) * 2009-01-15 2010-07-21 北京航空航天大学 Device for testing flow characteristics of gas-gas nozzle

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105716964A (en) * 2016-04-28 2016-06-29 中南大学 Sealed electric conduction device capable of guiding pulse current into autoclave and sealed electronic conduction method capable of guiding pulse current into autoclave
CN106696304A (en) * 2016-11-23 2017-05-24 安徽佳力奇碳纤维科技股份公司 Carbon fiber composite material vacuumizing device and vacuumizing method thereof
CN106827577A (en) * 2016-11-23 2017-06-13 安徽佳力奇碳纤维科技股份公司 A kind of carbon fibre composite vacuum bag assembly and its vacuum pumping method

Also Published As

Publication number Publication date
CN102092137B (en) 2013-06-26

Similar Documents

Publication Publication Date Title
CN101524880B (en) Metal-rubber composite gland bush molding die and molding method thereof
CN103779515B (en) A kind of fuel cell sealant and preparation method thereof
CN102017108B (en) Improved method for encapsulating the edge of a flexible sheet
CN102092137B (en) High-temperature high-pressure vacuum nozzle and sealing method thereof
CN102687330B (en) Fuel cell stack, manufacturing method of fuel cell stack and replacement method of module as constituent of fuel cell stack
JP6768822B2 (en) Gasket and its manufacturing method
CN105082568A (en) Liquid molding process of special-shaped composite structural part
CN103079798A (en) Method for producing molded gasket
US9950217B1 (en) Multilayer composite high-elastic environmentally-friendly ball structure
WO2005078839A2 (en) Method of forming bipolar plate modules
CN101727225B (en) Touch panel and touch liquid crystal display
CN202001606U (en) Manhole sealing device of high-voltage equipment
CN104325636B (en) A kind of acrylonitrile-butadiene rubber metal adhesive part vacuum-bag process manufacture method
CN201827360U (en) Symmetric V-shaped rubber-metal composite sealing piece
CN100482458C (en) Manufacturing process of polytetrafluoroethylene composite elastic body shim and product thereof
CN203210696U (en) Vacuum bag pipe connection device for autoclave molding process
CN205689544U (en) Enamel assembling tank bolted-on structure
CN207261654U (en) A kind of polytetrafluoroethylene (PTFE) rubber pad
CN101572169A (en) Sealing structure for transformer oil tank and sealing technical method thereof
CN207486204U (en) A kind of low side valve door special combination filling-material structure of power plant
CN204316866U (en) Flex circuit application presses the pressing structure of reinforcement soon
CN108688266B (en) Hollow-out laminating type sealing rubber material and preparation method thereof
CN201201763Y (en) Locating coating packaging compound film
CN217180345U (en) Ablation-resistant flexible encapsulating material high-pressure impact resistance test device for solid rocket engine
CN205534207U (en) Special fluorine dragon gasket

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant