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    • 2. 发明申请
    • Method and system for identifying damage to a wire
    • 识别电线损坏的方法和系统
    • US20060025939A1
    • 2006-02-02
    • US10901577
    • 2004-07-29
    • Daniel RogovinMartin Kendig
    • Daniel RogovinMartin Kendig
    • G06F19/00
    • H04B5/00G01R31/025G01R31/088
    • Methods, systems, and articles of manufacture consistent with the present invention determine the type of damage to a wire, the amount of damage, and the location of the damage based on the wire's broadband impedance measured from a single measurement point. The type of damage is determined by comparing the wire's calculated dielectric function, resistance and inductance to known values that correspond to types of wire damage. The amount of damage is determined by comparing the wire's low-frequency impedance phase to known low-frequency impedance phase information that corresponds to a known amount of wire damage. The location of damage is determined by comparing the wire's high-frequency impedance phase to known high-frequency impedance phase information that corresponds to a known location of wire damage.
    • 根据本发明的方法,系统和制品根据从单个测量点测量的线的宽带阻抗来确定线的损坏类型,损伤量和损坏的位置。 通过将导线的计算介电函数,电阻和电感与对应于导线损坏类型的已知值进行比较来确定损坏类型。 通过将电线的低频阻抗相位与对应于已知的电线损伤量的已知低频阻抗相位信息进行比较来确定损坏量。 损坏的位置是通过将电线的高频阻抗相位与对应于已知位置的电线损伤的已知高频阻抗相位信息进行比较来确定的。
    • 4. 发明申请
    • Microelectromechanical (MEM) fluid health sensing device and fabrication method
    • 微机电(MEM)液体健康感测装置及制造方法
    • US20070062261A1
    • 2007-03-22
    • US11234015
    • 2005-09-22
    • Jeffrey DeNataleRobert BorwickPhilip StuparMartin Kendig
    • Jeffrey DeNataleRobert BorwickPhilip StuparMartin Kendig
    • G01N11/00
    • G01N33/2888G01N11/16
    • A microelectromechanical (MEM) fluid health sensing device comprises a viscosity sensor which provides an output that varies with the viscosity of a fluid in which it is immersed, and at least one other sensor which provides an output that varies with another predetermined parameter of the fluid. The viscosity sensor is preferably a MEM device fabricated by means of a “deep etch” process. The sensors are preferably integrated together on a common substrate, though they might also be fabricated separately and packaged together to form a hybrid device. A data processing means may be included which receives the sensor outputs and provides one or more outputs indicative of the health of the fluid. Sensor types which may be part of the present device include, for example, a temperature sensor, a MEM electrochemical sensor, a MEM accelerometer, a MEM contact switch lubricity sensor, and/or an inductive metallic wear sensor.
    • 微机电(MEM)流体健康感测装置包括粘度传感器,该粘度传感器提供随着浸入其中的流体的粘度而变化的输出,以及提供随流体的另一预定参数而变化的输出的至少一个其它传感器 。 粘度传感器优选是通过“深蚀刻”工艺制造的MEM器件。 传感器优选地集成在公共基板上,尽管它们也可以单独制造并且封装在一起以形成混合装置。 可以包括接收传感器输出并提供指示流体健康的一个或多个输出的数据处理装置。 可以是本装置的一部分的传感器类型包括例如温度传感器,MEM电化学传感器,MEM加速度计,MEM接触开关润滑性传感器和/或感应金属磨损传感器。
    • 5. 发明授权
    • Corrosion inhibitors, methods of production and uses thereof
    • 腐蚀抑制剂,生产方法及其用途
    • US07686980B2
    • 2010-03-30
    • US11241048
    • 2005-09-30
    • Martin KendigMelitta HonLes Warren
    • Martin KendigMelitta HonLes Warren
    • C09K15/12C23F11/12C23F11/14C23F11/16
    • C23F11/162C09D5/086C23F11/141C23F11/149C23F11/165
    • Compositions for actively inhibiting corrosion are described herein that include at least one active corrosion inhibitor compound, and at least one conventional corrosion inhibitor compound. In addition, methods for producing a composition that actively reduces corrosion are described herein and include providing at least one active corrosion inhibitor, providing at least one conventional corrosion inhibitor compound or corrosion protection compound, and blending the at least one active corrosion inhibitor and the at least one conventional corrosion inhibitor compound or corrosion protection compound to form the composition. In addition, a composition for actively inhibiting corrosion is described herein that includes at least one active corrosion inhibitor compound, wherein the at least one active corrosion inhibitor compound comprises a derivative or salt of a thio-, thia- or dithiocarbarnic acid, or a combination thereof and at least one conventional corrosion inhibitor compound. Coatings and composite materials containing these active corrosion inhibitor compounds and compositions are also described.
    • 本文描述了用于主动抑制腐蚀的组合物,其包括至少一种活性腐蚀抑制剂化合物和至少一种常规的缓蚀剂化合物。 此外,本文描述了用于生产主动降低腐蚀的组合物的方法,包括提供至少一种活性腐蚀抑制剂,提供至少一种常规的腐蚀抑制剂化合物或腐蚀保护化合物,以及将至少一种活性腐蚀抑制剂和 至少一种常规的腐蚀抑制剂化合物或防腐蚀化合物以形成组合物。 此外,本文描述了用于主动抑制腐蚀的组合物,其包括至少一种活性腐蚀抑制剂化合物,其中所述至少一种活性腐蚀抑制剂化合物包含硫代,硫代或二硫代碳酸的衍生物或盐,或其组合 和至少一种常规的缓蚀剂化合物。 还描述了含有这些活性腐蚀抑制剂化合物和组合物的涂料和复合材料。
    • 6. 发明申请
    • Corrosion inhibitors, methods of production and uses thereof
    • 腐蚀抑制剂,生产方法及其用途
    • US20070102671A1
    • 2007-05-10
    • US11241048
    • 2005-09-30
    • Martin KendigMelitta HonLeslie Warren
    • Martin KendigMelitta HonLeslie Warren
    • C09K3/00
    • C23F11/162C09D5/086C23F11/141C23F11/149C23F11/165
    • Compositions for actively inhibiting corrosion are described herein that include at least one active corrosion inhibitor compound, and at least one conventional corrosion inhibitor compound. In addition, methods for producing a composition that actively reduces corrosion are described herein and include providing at least one active corrosion inhibitor, providing at least one conventional corrosion inhibitor compound or corrosion protection compound, and blending the at least one active corrosion inhibitor and the at least one conventional corrosion inhibitor compound or corrosion protection compound to form the composition. In addition, a composition for actively inhibiting corrosion is described herein that includes at least one active corrosion inhibitor compound, wherein the at least one active corrosion inhibitor compound comprises a derivative or salt of a thio-, thia- or dithiocarbarnic acid, or a combination thereof and at least one conventional corrosion inhibitor compound. Coatings and composite materials containing these active corrosion inhibitor compounds and compositions are also described.
    • 本文描述了用于主动抑制腐蚀的组合物,其包括至少一种活性腐蚀抑制剂化合物和至少一种常规的缓蚀剂化合物。 此外,本文描述了用于生产主动降低腐蚀的组合物的方法,包括提供至少一种活性腐蚀抑制剂,提供至少一种常规的腐蚀抑制剂化合物或腐蚀保护化合物,并将至少一种活性腐蚀抑制剂和at 至少一种常规的腐蚀抑制剂化合物或防腐蚀化合物以形成组合物。 此外,本文描述了用于主动抑制腐蚀的组合物,其包括至少一种活性腐蚀抑制剂化合物,其中所述至少一种活性腐蚀抑制剂化合物包含硫代,硫代或二硫代碳酸的衍生物或盐,或其组合 和至少一种常规的缓蚀剂化合物。 还描述了含有这些活性腐蚀抑制剂化合物和组合物的涂料和复合材料。
    • 7. 发明授权
    • Apparatus and method for ink jet printing on textiles
    • 纺织品喷墨印刷的设备和方法
    • US06513924B1
    • 2003-02-04
    • US09952614
    • 2001-09-11
    • Ira GoldbergMartin KendigRachel LucasTed McKinneyHong-Son RyangLeonard Alper
    • Ira GoldbergMartin KendigRachel LucasTed McKinneyHong-Son RyangLeonard Alper
    • B41J201
    • D06P5/30B41J3/4078B41J11/0015B41J11/002D06P1/525
    • An apparatus and method for ink jet printing on textiles is disclosed, wherein the steps of pre-treating, ink jet printing, and post-treating the textile takes place at the ink jet printer. A preferred method includes the steps of applying a pre-treat to the textile, evaporating excess water from the pre-treat, ink jet printing a pattern on the pre-treated textile, evaporating water from the ink in the pattern, applying a binder/post-treat to the pattern and curing the binder. The textile printing apparatus prints on an untreated textile by having a first application device to apply a pre-treat aqueous solution to the textile. A first heating element is arranged to evaporate most or all of the water from the pre-treated textile as it passes. An ink jet printer then accepts the pre-treated textile and prints the desired pattern on it. A second heating element at the output of the printer evaporates water from the ink in the pattern as the printed textile passes. A second application device applies a binder/post-treat to the printed textile after the ink evaporation. A third heating element dries and cures the binder/post-treat.
    • 公开了一种用于纺织品上的喷墨印刷的设备和方法,其中在喷墨打印机处进行预处理,喷墨印刷和后处理织物的步骤。 优选的方法包括以下步骤:对织物施加预处理,从预处理喷墨过程中喷出多余的水,在预处理的织物上印刷图案,从图案中的油墨蒸发水,施加粘合剂/ 对图案进行后处理并固化粘合剂。 纺织印刷设备通过具有将预处理水溶液施加到纺织品的第一施加装置在未处理的织物上印刷。 第一加热元件布置成当预处理的纺织品通过时蒸发大部分或全部水。 然后,喷墨打印机接受预处理的织物并在其上打印所需的图案。 打印机输出端的第二个加热元件以印刷纺织品通过的方式从墨水中蒸发水分。 第二施加装置在油墨蒸发之后对印刷的织物施加粘合剂/后处理。 第三个加热元件干燥并固化粘合剂/后处理。
    • 10. 发明申请
    • Pigment grade corrosion inhibitor host-guest compositions and procedure
    • US20050022693A1
    • 2005-02-03
    • US10877946
    • 2004-06-25
    • John SinkoMartin Kendig
    • John SinkoMartin Kendig
    • C04B9/02C04B14/04C09C1/02C09C1/34C09C1/40C09D5/08C23C22/66C23C22/67C23C22/74C23C26/00C23F20060101
    • C23C22/74C01P2002/22C01P2002/82C09C1/02C09C1/40C09D5/084C23C22/66C23C22/67C23C26/00
    • A pigment grade corrosion inhibitor and a method of forming the inhibitor is disclosed. The inhibitor is comprised of a host species comprised of an inorganic compound having a layered structure and a guest species comprised an anionic species of a weak acid. The host species is preferably a double hydroxide having a structure of: [M(II)1-xM(III)x(OH−)2] [An−x/n.y H2O], where M(II) is a divalent metal cationic species, M(III) is a trivalent metal cationic species, and An− is an anionic species, preferably with the species present in a range of: 0.2≦M(III)/(M(II)+M(III))≦0.4. The guest species include: ortho-phosphoric, pyrophosphoric, tripoly-phosphoric, polyphosphoric acid; mono- and di-alkyl or aryl-esters of ortho-phosphoric and pyrophosphoric acid; metaphosphoric, trimeta-phosphoric, poly-metaphosphoric acid; phosphorous (phosphonic) acid; derivatives of phosphonic acid; alkyl and aryl esters of thio-phosphoric and dithio-phosphoric acid; molybdic, phospho-molybdic, silico-molybdic acid; boric acid; cyanamidic acid; nitrous acid; derivatives of thio- and dithiocarbonic acid, including o-alkyl esters; derivatives of dithiocarbamic acid, including N-alkyl dithiocarbamates; pyrrolidinecarbodithioic acid; thio-organic compounds functionalized with at least one —SH group of acidic character, including: 2,5-dimercapto-1,3,4-thiadiazole (DMTD), 2,4-dimercapto-s-triazolo-[4,3-b]-1,3-4 thiadiazole, trithiocyanuric acid (TMT), and dithiocyanuric acid, various N—,S— and N,N—, S,S— and N,S-substituted derivatives of the above DMTD and TMT compounds; various S-substituted derivatives of trithiocyanuric acid; dimer and polymer derivatives of the above DMTD and TMT compounds, including 5,5′ dithio-bis (1,3,4 thiadiazole-2(3H)-thione or (DMTD)2, and (DMTD)n, polymers of DMTD and (TMT)2, dimers and polymers of TMT; various combinations of all the above; soluble salts of DMTD and TMT; poly-ammonium salt of DMTD or (DMTD)n and TMT formed with polyamines; mercapto-benzothiazole, mercapto-benzoxazole, mercapto-benzimidazole, and combinations, thereof; di- and poly-mercapto compounds, including: di-mercapto derivatives of thiophene, pyrrole, furane, diazoles, and thiadiazoles; di- and tri-mercapto derivatives of pyridine, diazines, triazines, benzimidazole, and benzothiazole, including dimercaptopyridine, 2, 4-dithiohydantoine, and 2,4,-dimercapto-6-amino-5-triazine; and carboxylic and di-carboxylic acids, including ascorbic, salicylic acid, phthalic acid, nitro-phthalic acid, succinic acid, and derivatives of succinic acid, including 1-(benzothiazol-2-ylthio)succinic acid.