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11.发明申请公开(公告)号:US20150315714A1
公开(公告)日:2015-11-05
申请号:US14537436
申请日:2014-11-10
Applicant: VLN Advanced Technologies Inc.
Inventor: Mohan M. Vijay , Meisheng M. Xu , Emilio Panarella , Wenzhuo Yan , Andrew Hung Tieu , Bruce R. Daniels
CPC classification number: B05D1/12 , B05B1/08 , B05B1/083 , B05B5/001 , B05B5/006 , B05B5/032 , B05B5/035 , B05B5/08 , B05B5/082 , B05B5/10 , B05B5/16 , B05B12/08 , B05B13/0431 , B05B14/40 , B05B16/00 , B05B16/20 , B05B16/40 , B05B17/06 , B05B17/0607 , B05B17/0653 , B05C15/00 , B05C19/00 , B05D3/12 , B08B3/024 , B08B2203/0288 , B24C3/12 , B24C5/005 , B24C7/00 , B25J11/0075 , B25J21/00 , C23C18/1806 , C23C24/04 , C25D5/006 , C25D5/08 , C25D5/34 , C25D5/50 , C25D15/00 , C25D21/12
Abstract: A method of stripping, prepping and coating a surface includes first stripping the exiting coating from a surface, using continuous or pulsed fluid jet, followed by prepping the surface by the same fluid jet. The method also provides entraining particles into a fluid stream, if desired to generate a particle-entrained fluid stream that is directed at the surface to be stripped and prepped. The particles act as abrasive particles for prepping the surface to a prescribed surface roughness required for subsequent application of a coating to the surface. The method then entails coating the surface by electrically charging particles having the same chemical composition as the particles used to prep the surface. Finally, a charged-particle-entrained fluid stream is directed at high speed at the charged surface to coat the surface. The particles form both mechanical and electronic bonds with the surface.
Abstract translation: 剥离,制备和涂覆表面的方法包括首先使用连续或脉冲流体射流从表面剥离出射的涂层,然后通过相同的流体射流制备表面。 如果需要,该方法还将夹带颗粒提供到流体流中,以产生指向待剥离和制备的表面的颗粒夹带的流体流。 颗粒作为磨料颗粒,用于将表面制备成随后向表面施加涂层所需的规定表面粗糙度。 该方法然后需要通过带电具有与用于制备表面的颗粒相同的化学组成的颗粒来涂覆表面。 最后,带电粒子的流体流在带电表面处高速引导以涂覆表面。 颗粒与表面形成机械和电子结合。
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公开(公告)号:US09757756B2
公开(公告)日:2017-09-12
申请号:US14019160
申请日:2013-09-05
Applicant: VLN Advanced Technologies Inc.
Inventor: Mohan M. Vijay , Andrew Hung Tieu , Wenzhuo Yan , Bruce R. Daniels
IPC: B24C3/32 , B24C5/04 , B08B9/049 , B05B1/14 , B05B17/06 , B05B17/00 , B05B1/08 , B05B3/06 , B05B13/06 , B05B3/02
CPC classification number: B05B17/0653 , B05B1/08 , B05B1/083 , B05B1/14 , B05B3/02 , B05B3/06 , B05B13/0636 , B05B17/0607 , B05B17/0623 , B05B17/063 , B05B17/0638 , B08B9/0495 , B24C3/32 , B24C3/325 , B24C5/04
Abstract: A method of prepping a cylindrical inner surface of a bore using a high-frequency forced pulsed waterjet apparatus entails generating a pressurized waterjet using a high-pressure water pump, generating a high-frequency signal using a high-frequency signal generator, applying the high-frequency signal to a transducer having a microtip to cause the microtip to vibrate to thereby generate the high-frequency forced pulsed waterjet, and rotating the rotatable ultrasonic nozzle inside the bore to prep the inner cylindrical surface of the bore using the high-frequency forced pulsed waterjets exiting from the angled exit orifices of the rotatable ultrasonic nozzle.
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公开(公告)号:US09718091B2
公开(公告)日:2017-08-01
申请号:US15192226
申请日:2016-06-24
Applicant: VLN Advanced Technologies Inc.
Inventor: Mohan M. Vijay , Meisheng M. Xu , Emilio Panarella , Wenzhuo Yan , Andrew Hung Tieu , Bruce R. Daniels
IPC: B05B5/08 , B05B5/10 , B05B5/03 , B05B5/053 , B08B3/02 , B24C5/00 , B24C7/00 , B05D1/12 , C25D5/00 , C25D21/12 , C25D5/34 , C25D5/50 , C25D15/00 , C25D5/08 , B05C15/00 , B05C19/00 , B05B15/12 , B05B5/00 , B24C3/12 , B05B1/08 , B05B5/035 , B05B13/04 , B05B17/06 , B25J11/00 , B25J21/00 , C23C24/04 , B05B5/16 , B05B12/08 , B05D3/12 , C23C18/18
CPC classification number: B05D1/12 , B05B1/08 , B05B1/083 , B05B5/001 , B05B5/006 , B05B5/032 , B05B5/035 , B05B5/08 , B05B5/082 , B05B5/10 , B05B5/16 , B05B12/08 , B05B13/0431 , B05B14/40 , B05B16/00 , B05B16/20 , B05B16/40 , B05B17/06 , B05B17/0607 , B05B17/0653 , B05C15/00 , B05C19/00 , B05D3/12 , B08B3/024 , B08B2203/0288 , B24C3/12 , B24C5/005 , B24C7/00 , B25J11/0075 , B25J21/00 , C23C18/1806 , C23C24/04 , C25D5/006 , C25D5/08 , C25D5/34 , C25D5/50 , C25D15/00 , C25D21/12
Abstract: A method of stripping, prepping and coating a surface comprises first stripping the exiting coating from a surface, using continuous or pulsed fluid jet, followed by prepping the surface by the same fluid jet. The method also provides entraining particles into a fluid stream, if desired to generate a particle-entrained fluid stream that is directed at the surface to be stripped and prepped. The particles act as abrasive particles for prepping the surface to a prescribed surface roughness required for subsequent application of a coating to the surface. The method then entails coating the surface by electrically charging particles having the same chemical composition as the particles used to prep the surface. Finally, a charged-particle-entrained fluid stream is directed at high speed at the charged surface to coat the surface. The particles form both mechanical and electronic bonds with the surface.
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公开(公告)号:US20140008453A1
公开(公告)日:2014-01-09
申请号:US14019160
申请日:2013-09-05
Applicant: VLN Advanced Technologies Inc.
Inventor: Mohan M. Vijay , Andrew Hung Tieu , Wenzhuo Yan , Bruce R. Daniels
CPC classification number: B05B17/0653 , B05B1/08 , B05B1/083 , B05B1/14 , B05B3/02 , B05B3/06 , B05B13/0636 , B05B17/0607 , B05B17/0623 , B05B17/063 , B05B17/0638 , B08B9/0495 , B24C3/32 , B24C3/325 , B24C5/04
Abstract: A method of prepping a cylindrical inner surface of a bore using a high-frequency forced pulsed waterjet apparatus entails generating a pressurized waterjet using a high-pressure water pump, generating a high-frequency signal using a high-frequency signal generator, applying the high-frequency signal to a transducer having a microtip to cause the microtip to vibrate to thereby generate the high-frequency forced pulsed waterjet, and rotating the rotatable ultrasonic nozzle inside the bore to prep the inner cylindrical surface of the bore using the high-frequency forced pulsed waterjets exiting from the angled exit orifices of the rotatable ultrasonic nozzle.
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