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公开(公告)号:US3246973A
公开(公告)日:1966-04-19
申请号:US12403461
申请日:1961-07-14
Applicant: PFAUDLER PERMUTIT INC
Inventor: BANGE GLENN R , JONES MAYNARD J , YOUNG HERBERT F
CPC classification number: F16L49/00 , F16L58/14 , Y10T29/4975
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12.发明授权Metallic pipe lined with glass subject to substantially no compressive stress and process for the manufacture thereof 失效内衬玻璃的金属管基本上没有压应力,并且用于制造它们的方法
公开(公告)号:US3129727A
公开(公告)日:1964-04-21
申请号:US3016160
申请日:1960-05-19
Applicant: SANYO SPECIAL STEEL CO LTD
Inventor: SHOICHIRO TANAKA
IPC: F16L58/14
CPC classification number: F16L58/14 , Y10S285/911
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公开(公告)号:US3107421A
公开(公告)日:1963-10-22
申请号:US79170059
申请日:1959-02-06
Applicant: TURNBULL FREDERICK W
Inventor: TURNBULL FREDERICK W
IPC: F16L58/14
CPC classification number: F16L58/14 , F16L58/181 , Y10S228/903 , Y10T29/49885
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公开(公告)号:US3045709A
公开(公告)日:1962-07-24
申请号:US78806159
申请日:1959-01-21
Applicant: INSUL FIL CO INC
Inventor: RAPP HARRY E
CPC classification number: F16L58/14 , F16L58/06 , F16L58/1054 , F16L59/15 , Y10S138/09
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公开(公告)号:US2356047A
公开(公告)日:1944-08-15
申请号:US39776441
申请日:1941-06-12
Applicant: PFAUDLER CO INC
Inventor: GEISINGER ELLIOTT E , GOECKE RUDOLPH F
CPC classification number: F16L58/08 , B65D25/14 , F16L23/125 , F16L58/14 , F16L58/187
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Patent Agency Ranking
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17.发明授权公开(公告)号:US12006469B2
公开(公告)日:2024-06-11
申请号:US18007646
申请日:2021-06-01
Applicant: NISSAN CHEMICAL AMERICA CORPORATION
Inventor: John Edmond Southwell , Samuel James Maguire-Boyle
CPC classification number: C09K8/532 , F16L58/14 , C09K2208/10
Abstract: A method to reduce the deposition of solid sulfur (Ss(s)) in a natural gas producing well, is described wherein the inside of the pipes used in the well are coated with a coating comprising polar surface treated nanoparticles. The polar surface treated nanoparticles interact with the sulfur gas and interfere with the deposition of solid sulfur onto the surface of the pipe. The polar surface treated nanoparticles are selected from the group consisting of silica, alumina and silica-aluminate, metal sulfates and metal oxides.
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18.发明授权公开(公告)号:US11773495B2
公开(公告)日:2023-10-03
申请号:US17092199
申请日:2020-11-06
Applicant: AmpClad Coating Technologies Inc.
Inventor: David Grant Lingnau , Jeff Cochrane
IPC: C23D5/00 , C23D5/04 , H05B6/14 , H05B6/36 , H05B6/10 , C23D3/00 , C23C4/129 , C23C4/04 , C23C4/16 , C23C4/18 , C23D15/00 , C23C4/02 , H05B6/44 , H05B6/42 , F16L58/14 , B05D1/12 , B05D3/02 , B05D7/22
CPC classification number: C23D5/04 , C23C4/02 , C23C4/04 , C23C4/129 , C23C4/16 , C23C4/18 , C23D3/00 , C23D5/005 , C23D15/00 , H05B6/10 , H05B6/104 , H05B6/14 , H05B6/36 , H05B6/42 , H05B6/44 , B05D1/12 , B05D3/0245 , B05D7/222 , B05D2202/10 , F16L58/14
Abstract: Induction heating facilitated coating systems and processes for pipes overcome corrosion and erosion of the pipes at extreme temperatures and pressures in applications including oil and gas downhole tubulars and pipelines as well as processing facilities. Being based on vitreous fused inorganic compounds, the present invention achieves very high corrosion resistance at remarkably modest cost. Attractive economics and immunity to chlorides and moisture permeation at extreme concentrations and temperatures also make it well suited to desalination plants and potable water piping applications. Due to its extreme temperature resistance, it also is very well suited for geothermal wells. Additionally, due to its characteristic smooth durable surface, the present invention is ideally suited for applications involving the opposite of corrosion, namely scaling problems, such as fouling in sewage systems and scale buildup in heavy oil wells.
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19.发明公开公开(公告)号:US20230227711A1
公开(公告)日:2023-07-20
申请号:US18007646
申请日:2021-06-01
Applicant: NISSAN CHEMICAL AMERICA CORPORATION
Inventor: John Edmond SOUTHWELL , Samuel James MAGUIRE-BOYLE
CPC classification number: C09K8/532 , F16L58/14 , C09K2208/10
Abstract: A method to reduce the deposition of solid sulfur (Ss(s)) in a natural gas producing well, is described wherein the inside of the pipes used in the well are coated with a coating comprising polar surface treated nanoparticles. The polar surface treated nanoparticles interact with the sulfur gas and interfere with the deposition of solid sulfur onto the surface of the pipe. The polar surface treated nanoparticles are selected from the group consisting of silica, alumina and silica-aluminate, metal sulfates and metal oxides.
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公开(公告)号:US09757758B2
公开(公告)日:2017-09-12
申请号:US14003735
申请日:2012-03-07
Applicant: Holly-Bruce Hamilton , Andrew Bergeron , Blain Clatworthy , Tim Stoddard
Inventor: Holly-Bruce Hamilton , Andrew Bergeron , Blain Clatworthy , Tim Stoddard
IPC: B05D7/22 , B05C7/08 , F16L58/14 , G21C3/20 , G21C21/02 , B05C3/18 , B05C11/02 , B05D1/40 , B05D1/42
CPC classification number: B05C7/08 , B05C3/18 , B05C11/021 , B05D1/40 , B05D1/42 , B05D7/222 , F16L58/14 , G21C3/20 , G21C21/02 , Y02E30/40
Abstract: Processes and devices useful in the application of coatings (14) to the interior of tubes (10) are described. Such processes (40, 400) may include applying a layer (20) of coating fluid (18) to the internal surface (16) of the tube (10) and passing a smoothing member (22) through the tube (10) at a distance from the internal surface (16). The viscosity of the coating fluid (18) may be selected so that the layer (20) of coating fluid (18) has a thickness substantially equal to or in excess of a predetermined wet film thickness (Twf) correlated to a desired final thickness (Tf) of the coating (14). The distance between the smoothing member (22) and the internal surface (16) may substantially correspond to the predetermined wet film thickness (Twf). The smoothing member (22) may smooth the coating fluid (18) and remove coating fluid (18) in excess of the wet film thickness (Twf) from the internal surface (16).
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