| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种保温、隔热包装材料 | CN201510866456.0 | 2015-12-01 | CN106808764A | 2017-06-09 | 周依宁 |
| 本发明公开了一种保温、隔热包装材料,涉及包装材料领域,其由内、中、外三层组成,其中包括内层--保温层、中层--隔热层、外层--密封层,本发明的保温层由棉岩制成,隔热层由泡沫隔热材料制成,密封层由丙烯酸甲酯2-4份、丙烯酸--二酯3-5份和甲基丙烯酸甲酯5-8份制成。本发明的包装材料不仅密封性强,而且具有很好的保温、隔热双重功效。 | ||||||
| 2 | 阻燃卷材 | CN201510273422.0 | 2015-05-26 | CN104943318A | 2015-09-30 | 冯娟 |
| 本发明公开了一种阻燃卷材,涉及建筑材料技术领域,包括两个外层,其中一个外层由以下重量份的原材料制成:石墨21~35份,玻璃纤维15~27份,石膏9~17份,石棉粉7~20份,珍珠岩18~40份,阻燃纤维12~25份,过氯乙烯6~11份,氯化橡胶13~23份;另一个外层由以下重量份的原材料制成:硅胶12~23份,环氧粘结剂15~27份,橡胶11~22份,阻燃剂5~10份。与现有技术相比,本发明具有较强的阻燃和粘结的作用。 | ||||||
| 3 | 一种防火防刺纸箱板 | CN201610103151.9 | 2016-02-25 | CN105711216A | 2016-06-29 | 杨伟帅 |
| 本发明公开了一种防火防刺纸箱板,包括:纸板层和防水层,所述防水层设置在纸板层的下表面,所述防火防刺纸箱板还包括防火层和防刺层,所述防火层设置在防刺层的上方,所述防刺层设置在纸板层的上方,所述防火层为铝膜,所述防刺层为石棉网或者玻璃纤维网,所述防火层和防刺层之间采用粘结剂相连接。通过上述方式,本发明所述的防火防刺纸箱板,表面的防火层为铝膜,既防火又防刺,防刺层为石棉网或者玻璃纤维网,既防刺又防火,双重效果,而且内覆防火塑料薄膜,阻燃和阻水效果好,对被包装的物体进行全方位的保护。 | ||||||
| 4 | 一种熔点低复合金属材料 | CN201510885432.X | 2015-12-03 | CN105365289A | 2016-03-02 | 张小莉 |
| 本发明公开一种熔点低复合金属材料,所述熔点低复合金属材料包括绝缘材料层、陶瓷材料层和天然纤维层,所述绝缘材料层是铅锡合金,所述陶瓷材料层是氧化铝陶瓷,所述天然纤维层是石棉,所述铅锡合金占复合金属材料主体重量的39%,所述氧化铝陶瓷占复合金属材料主体重量的42%,所述石棉占复合金属材料主体重量的19%,本发明提供一种熔点低复合金属材料,具有熔点低,流动性好和收缩性小等特点。 | ||||||
| 5 | 一种热板焊接模具的隔热保温结构 | CN201410665103.X | 2014-11-19 | CN104441826A | 2015-03-25 | 游帅; 周建波; 张小凤 |
| 本发明公开了一种热板焊接模具的隔热保温结构,包括隔热铝箔、隔热石棉和外保护层,所述隔热铝箔紧贴热板焊接模具热模的非工作部分,隔热石棉包覆在热板焊接模具热模的非工作部分,外保护层通过铆钉固定在热板焊接模具热模的非工作部分上。本发明通过该隔热保温层,在不影响热板焊接模具正常工作的情况下,将热板焊接模具的热模部分最大限度的保护起来在该隔热保温层的作用下,由于可以防止热量不断地以空气对流和热辐射的形式大量散失,可使热板焊接模具加热快,降温慢,易使温度保持在一个稳定的范围内,热电偶工作负荷大幅降低,降低能耗;热板焊接模具热模外漏的非工作部分的温度降低到100多度,大大降低操作工被烫伤的风险。 | ||||||
| 6 | Production of sheet material for use as gaskets | US39377473 | 1973-08-31 | US3897576A | 1975-07-29 | QUALTROUGH JOHN GEOFFREY; THORNLEY HARRY |
| A process for producing in indefinitely long lengths a composite sheet for use as a gasket material, the sheet comprising surface coatings of fibre reinforced elastomer bonded to both faces of a metal core, is characterised by simultaneously forming a curable dough-like fibre reinforced elastomer composition into a sheet and applying the sheet to one face of the metal core of indefinite length in a single continuous operation. This is done by feeding the metal core and, on one face of the metal core the dough-like composition, which contains fibre, elastomer, curatives, fillers an a solvent system including a volatile solvent for the elastomer and a non-solvent liquid through a nip between two calender rolls to spread the elastomer composition over the metal core and apply it thereto to form one coating, subsequently passing the coated metal core to a drying device to remove the solvent system from the composition, passing the dry, but uncured, coated metal core together with further dough-like composition on the other face of the core through a second nip between the two calender rolls to spread the composition over the other face of the core and apply it thereto to form a second coating. The non-solvent liquid prevents adhesion of the composition to the rolls. After this the core with its second coating is passed to a drying device to remove the solvent system from the second coating, the core with its coatings is passed through a further nip between two calender rolls to consolidate the coatings and enhance the bond between the coatings and the core and finally the coated core is passed into an oven to cure the composition. When the metal core is a plain metal sheet as is preferred, the core is coated with an adhesive before the doughlike composition is applied to it and the adhesive is partly soluble in the solvent system.
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| 7 | Method of fabricating right spherical segment glass shell-to-metal-joint | US35426673 | 1973-04-25 | US3839109A | 1974-10-01 | HORN G |
| An improved viewing window construction for deep submersible vehicles and a method of construction thereof is disclosed. A hemispherical glass dome is ground and lapped with an edge radius of twice the dome thickness and fitted on a congruently configured mating ring with a bimetalic gasket providing a strain relieving seal therefor.
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| 8 | Composite pipe wrap material and method | US3757829D | 1971-05-12 | US3757829A | 1973-09-11 | BERRY G; GREGORY M; AMBROSE J |
| A composite pipe wrap material for underground pipe including a fiber glass pipe wrap material bonded to an outer protective pipe wrap material by a layer of adhesive which partially penetrates into the fiber glass wrap. The fiber glass wrap is preferably in the form of a mat. The composite pipe wrap material is adapted to position a portion of the fiber glass mat in approximately the outer one-third of the thickness of a metallic pipe protective coating when the material is wrapped about a metal pipe. Also disclosed is a method or protecting a metallic pipe by forming the composite pipe wrap material, coating the pipe with a protective coating and wrapping the pipe to position a portion of the fiber glass wrap in approximately the outer one-third of the thickness of the coating. Further disclosed is a method of positioning a portion of fiber glass pipe wrap material in approximately the outer one-third of the thickness of a protective coating on a metallic pipe.
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| 9 | Asbestos fiber-filled bitumen sound deadening laminates | US26612772 | 1972-06-26 | US3850789A | 1974-11-26 | KINGSBURY H |
| Reducing or absorbing the noise transmission of a component such as a metal sheet, metal pressing or metal casting which is prone to vibration by applying directly or indirectly to at least part of the surface thereof a layer of one or more sheets of asbestos fibre-filled bitumen composition, in laminate form, to an overall thickness of at least 1.5 mm, the weight rates of asbestos to bitumen being in the range 40:60 to 60:
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| 10 | Method of making a foamed article and said article | US3616171D | 1968-10-03 | US3616171A | 1971-10-26 | HOSKINSON JOHN DONALD SR |
| This invention relates to a foamed article having a foamed core and a vinyl resin skin wherein the inner layer of the skin adjacent the foam contains asbestos fibers.
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| 11 | Adhesive-sheet for the reinforcement of metal plates and method of reinforcing metal plates | EP81109929.0 | 1981-11-26 | EP0053361A1 | 1982-06-09 | Shimizu, Masato; Asoshina, Eishi; Tominaga, Takashi; Muguruma, Tadahiro |
An adhesive-sheet for the reinforcement of metal plate, and a method of reinforcing metal plates using an adhesive-sheet, are described. The adhesive-sheet comprises a first epoxy resin composition layer and a second epoxy resin composition layer laminated thereon wherein the first epoxy resin composition layer, when cured by heating, has a modulus of elasticity in tension sufficient to increase the stiffness of the metal plate, whereas the second epoxy resin composition layer, when cured by heating, has a modulus of elasticity in tension insufficient to increase the stiffness of the metal plate. |
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| 12 | COMPOSITE REFRACTORY BUILDING MATERIAL, METHOD OF MANUFACTURING THE SAME, GYPSUM BOARD, AND RESIN COMPOSITION | EP98914107.2 | 1998-04-20 | EP1022400A1 | 2000-07-26 | MATSUNO, Yoshimi; OGAWA, Tetsuji; SATO, Kenji; NISHIMURA, Tetsuya |
Since a refractory composite constructional material is a material in which a reinforcing layer composed of a thermosetting resin and a mineral fiber is provided on at least one side of a porous inorganic core material such as a plasterboard, it is excellent in the refractory properties, the processing properties, the laying properties, the nail endurance force and the strength, is light and low cost. A plurality of plasterboards may be laminated. A covering layer for preventing a plaster powder from flying may be formed on a butt end surface of a refractory composite constructional material. A patterned layer or an electromagnetic wave shielding layer may be provided on a refractory composite constructional material. A resin composition comprising a thermosetting resin and an elastic polymer has the nail endurance force. This resin composition may be impregnated into a porous substrate or a fibrous substrate and cured to make a molded sheet which may be laminated on a core material to make a molded plate. |
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| 13 | Adhesive-sheet for the reinforcement of metal plates and method of reinforcing metal plates | EP81109929.0 | 1981-11-26 | EP0053361B1 | 1985-02-20 | Shimizu, Masato; Asoshina, Eishi; Tominaga, Takashi; Muguruma, Tadahiro |
| An adhesive-sheet for the reinforcement of metal plate, and a method of reinforcing metal plates using an adhesive-sheet, are described. The adhesive-sheet comprises a first epoxy resin composition layer and a second epoxy resin composition layer laminated thereon wherein the first epoxy resin composition layer, when cured by heating, has a modulus of elasticity in tension sufficient to increase the stiffness of the metal plate, whereas the second epoxy resin composition layer, when cured by heating, has a modulus of elasticity in tension insufficient to increase the stiffness of the metal plate. | ||||||
| 14 | 금속판 보강용 접착성 시이트 및 금속판의 보강방법 | KR1019810004658 | 1981-11-27 | KR1019880001100B1 | 1988-06-29 | 시미즈마사또; 아소시나에이시; 무그루마다다히로; 도미나가다까시 |
| An adhesive sheet (I) for the reinforcement of a metal plate comprises 2 epoxy resin compsn. layers laminated on the metal which when cured by heating have a modulus of elasticity in tension which is sufficient, in the case of the first compsn. and insufficient, in the case of the second compsn., to increase the stiffness of the plate. Also claimed is the reinforcement of a metal plate by applying (I) such that the second compsn. layer comes into contact with the metal and then curing (I). The process provides sufficient reinforcement without causing strain and consequent depressions in the metal plate resulting from shrinkage of the resin after cure. The process is applied to prodn. of steel plates for vehicle bodies. | ||||||
| 15 | 금속판 보강용 접착성 시이트 및 금속판의 보강방법 | KR1019810004658 | 1981-11-27 | KR1019830007289A | 1983-10-19 | 시미즈마사또; 아소시나에이시; 무그루마다다히로; 도미나가다까시 |
| 내용없음 | ||||||
| 16 | JPH0331629Y2 - | JP13154380 | 1980-09-16 | JPH0331629Y2 | 1991-07-04 | |
| 17 | JPS6017705B2 - | JP16742880 | 1980-11-27 | JPS6017705B2 | 1985-05-04 | SHIMIZU MASAHITO; ASOSHINA HIDESHI; TOMINAGA TAKASHI; ROKUSHA TADAHIRO |
| An adhesive-sheet for the reinforcement of metal plate, and a method of reinforcing metal plates using an adhesive-sheet, are described. The adhesive-sheet comprises a first epoxy resin composition layer and a second epoxy resin composition layer laminated thereon wherein the first epoxy resin composition layer, when cured by heating, has a modulus of elasticity in tension sufficient to increase the stiffness of the metal plate, whereas the second epoxy resin composition layer, when cured by heating, has a modulus of elasticity in tension insufficient to increase the stiffness of the metal plate. | ||||||
| 18 | JPS5714894B2 - | JP4835577 | 1977-04-26 | JPS5714894B2 | 1982-03-27 | |
| 19 | Composite panel material | JP11160279 | 1979-08-31 | JPS5534997A | 1980-03-11 | RAINHARUTO SHIYURATSUTERU; ARUNORUDO GURASU |
| 20 | Cushioning sheet product and its production method | JP15865677 | 1977-12-27 | JPS53104680A | 1978-09-12 | TOOMASU JIEIMUZU MAKIYAN; AANESUTO EDOWAADO RIIGAN |
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