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    Sorption paper and method of producing sorption paper
    1.
    发明申请
    Sorption paper and method of producing sorption paper 有权
    吸附纸和生产吸附纸的方法

    公开(公告)号:US20090126898A1

    公开(公告)日:2009-05-21

    申请号:US11986483

    申请日:2007-11-20

    Applicant: Dustin Matthew Eplee Kenneth R. Butcher

    Inventor: Dustin Matthew Eplee Kenneth R. Butcher

    IPC: F28D17/00 B01D53/02 D21H27/08

    CPC classification number: F28D21/0015 B01D53/261 B01D53/28 B01D2251/302 B01D2253/104 B01D2253/112 B01D2253/202 B01D2253/34 D21H13/16 D21H17/11 D21H17/66 F24F3/147 F24F2203/1036 Y10T428/25

    Abstract: A paper material having water sorption capacity and method for forming the same is provided. The paper material may be formed from a mixture including thermoplastic organic fibers, micro porous particles, and hydroscopic salt or a mixture including organic fibers, titania or a transition alumina micro porous particles, and a hydroscopic salt. The paper may be produced by forming an aqueous slurry, including organic fibers and micro porous particles, mixing the slurry, feeding the mixed slurry into a paper making apparatus thereby forming a sheet, contacting the sheet with a solution containing an amount of hydroscopic salt, and drying the hydroscopic salt containing solution.

    Abstract translation: 提供了具有吸水能力的纸材料及其形成方法。 纸材料可以由包括热塑性有机纤维,微孔颗粒和吸湿盐的混合物或包括有机纤维,二氧化钛或过渡氧化铝微孔颗粒的混合物和吸湿盐形成。 该纸可以通过形成包含有机纤维和微孔颗粒的含水浆料,混合浆料,将混合浆料输送到造纸设备中从而形成片材,使片材与含有一定数量的吸水盐的溶液接触, 并干燥含吸入盐的溶液。

    Sorption paper and method of producing sorption paper
    2.
    发明授权
    Sorption paper and method of producing sorption paper 有权
    吸附纸和生产吸附纸的方法

    公开(公告)号:US07824766B2

    公开(公告)日:2010-11-02

    申请号:US11986483

    申请日:2007-11-20

    Applicant: Dustin Matthew Eplee Kenneth R. Butcher

    Inventor: Dustin Matthew Eplee Kenneth R. Butcher

    IPC: B32B5/16 B32B5/18 D21F11/00

    CPC classification number: F28D21/0015 B01D53/261 B01D53/28 B01D2251/302 B01D2253/104 B01D2253/112 B01D2253/202 B01D2253/34 D21H13/16 D21H17/11 D21H17/66 F24F3/147 F24F2203/1036 Y10T428/25

    Abstract: A paper material having water sorption capacity and method for forming the same is provided. The paper material may be formed from a mixture including thermoplastic organic fibers, micro porous particles, and hydroscopic salt or a mixture including organic fibers, titania or a transition alumina micro porous particles, and a hydroscopic salt. The paper may be produced by forming an aqueous slurry, including organic fibers and micro porous particles, mixing the slurry, feeding the mixed slurry into a paper making apparatus thereby forming a sheet, contacting the sheet with a solution containing an amount of hydroscopic salt, and drying the hydroscopic salt containing solution.

    Abstract translation: 提供了具有吸水能力的纸材料及其形成方法。 纸材料可以由包括热塑性有机纤维,微孔颗粒和吸湿盐的混合物或包括有机纤维,二氧化钛或过渡氧化铝微孔颗粒的混合物和吸湿盐形成。 该纸可以通过形成包含有机纤维和微孔颗粒的含水浆料,混合浆料,将混合浆料输送到造纸设备中从而形成片材,使片材与含有一定数量的吸水盐的溶液接触, 并干燥含吸入盐的溶液。

    Heat sink formulation
    4.
    发明授权
    Heat sink formulation 失效
    散热器配方

    公开(公告)号:US5178785A

    公开(公告)日:1993-01-12

    申请号:US758060

    申请日:1991-09-12

    Applicant: Michael J. Dolan Carmine M. Doddato Kenneth R. Butcher

    Inventor: Michael J. Dolan Carmine M. Doddato Kenneth R. Butcher

    IPC: C04B33/13 C09K5/14

    CPC classification number: C09K5/14 C04B33/13

    Abstract: A new heat sink composition having relatively high volumetric heat capacity and relatively high density have been prepared. The compositions comprise a set of formulas including: a) 50-95% oxide of iron and 50-5% of a mixture of clay, an organic binder or an inorganic binder, where said mixture can contain any portion of clay, organic binder or inorganic binder in any proportions provided the mixture adheres to the 50-5% compositional range; b) 15-95% oxide of iron and 85-5% of clay; c) 15-85% oxide of iron, 10-2% of a transition metal oxide other than iron and 75-13% inorganic binder; and d) 50-80% oxide of iron, 15-5% of talc and 35-15% clay. The compositions show good dried and fired properties and can even be loaded and fired in-situ because they possess good dried crush strength.

    Abstract translation: 已经制备了具有相对高的体积热容量和相对高密度的新的散热器组合物。 组合物包含一组配方,其包括:a)50-95%的铁氧化物和50-5%的粘土,有机粘合剂或无机粘合剂的混合物,其中所述混合物可以含有任何部分的粘土,有机粘合剂或 任何比例的无机粘合剂,只要混合物粘附在50-5%的组成范围内; b)铁的15-95%氧化物和85-5%的粘土; c)15-85%的铁氧化物,10-2%的铁以外的过渡金属氧化物和75-13%的无机粘合剂; 和d)铁的50-80%氧化物,15-5%的滑石和35-15%的粘土。 组合物显示出良好的干燥和焙烧性能,并且甚至可以原位加载和烧制,因为它们具有良好的干燥压碎强度。

    Radiant burner
    5.
    发明授权
    Radiant burner 失效
    辐射式燃烧器

    公开(公告)号:US5409375A

    公开(公告)日:1995-04-25

    申请号:US165945

    申请日:1993-12-10

    Applicant: Kenneth R. Butcher

    Inventor: Kenneth R. Butcher

    IPC: F23D14/16 F23D14/12

    CPC classification number: F23D14/16 F23D2203/105 F23D2203/1055 F23D2212/101

    Abstract: There is provided an improved radiant burner formed from a reticulated ceramic substrate. The porosity of the substrate is such as to permit combustible gas to pass therethrough. The substrate includes a plurality of intersecting grooves extending into one of its surfaces, thereby substantially eliminating cold spots on the radiant burner.

    Abstract translation: 提供了由网状陶瓷基板形成的改进的辐射燃烧器。 衬底的孔隙率使得可燃气体通过其中。 衬底包括延伸到其一个表面中的多个相交槽,从而基本上消除了辐射燃烧器上的冷点。

    Ceramic bodies formed from yttria stabilized zirconia-alumina
    6.
    发明授权
    Ceramic bodies formed from yttria stabilized zirconia-alumina 失效
    由氧化钇形成的陶瓷体稳定氧化锆 - 氧化铝

    公开(公告)号:US5045511A

    公开(公告)日:1991-09-03

    申请号:US484848

    申请日:1990-02-26

    Applicant: Paul A. Bosomworth Cinta M. Kelzenberg Kenneth R. Butcher

    Inventor: Paul A. Bosomworth Cinta M. Kelzenberg Kenneth R. Butcher

    IPC: B01D39/20 C04B35/488 C04B35/80 C04B38/06 C22B9/05

    CPC classification number: C04B35/806 B01D39/2075 C04B35/4885 C04B35/803 C04B38/0615 C22B9/055 C04B2111/00793

    Abstract: Ceramic bodies suitable for use in the filtration of molten metal are formed by immersing a porous organic substrate material in an aqueous thixotropic slurry containing yttria, zirconia and alumina; expelling excess slurry; drying the impregnated material; and heating to an elevated temperature to burn off the organic material and sinter the ceramic materials. The resulting zirconia-alumina ceramic bodies have from about 5-80% of the zirconia in a monoclinic phase and the remainder of the zirconia essentially in a stabilized cubic phase due to the yttria. The ceramic bodies thus produced have excellent strength, density, and thermal shock resistance properties.

    Abstract translation: 通过将多孔有机衬底材料浸入含有氧化钇,氧化锆和氧化铝的水性触变性浆料中而形成适用于熔融金属过滤的陶瓷体; 排出多余的浆料; 干燥浸渍的材料; 并加热到升高的温度以烧掉有机材料并烧结陶瓷材料。 所得到的氧化锆 - 氧化铝陶瓷体在单斜晶相中具有约5-80%的氧化锆,并且由于氧化钇,氧化锆的其余部分基本上处于稳定的立方相。 由此制造的陶瓷体具有优异的强度,密度和耐热冲击性。

    Process for making ceramic bodies with open channels
    8.
    发明授权
    Process for making ceramic bodies with open channels 失效
    用于制造具有开放通道的陶瓷体的方法

    公开(公告)号:US4814029A

    公开(公告)日:1989-03-21

    申请号:US117716

    申请日:1987-11-06

    Applicant: Kenneth R. Butcher

    Inventor: Kenneth R. Butcher

    IPC: B28B3/20 B28B3/24 B28B3/26 B28B7/34 B29C47/06 B32B18/00

    CPC classification number: B28B11/003 B28B3/24 B28B3/2636 B28B7/342

    Abstract: Processes for making rigid ceramic bodies with one or more channels therein includes forming an outer tube of extrudable ceramic mix about an inner core of extrudable organic mix within the chamber of a piston type extrusion barrel composite, simultaneously extruding the outer tube and inner core through a tapered extrusion die having an extrusion outlet of smaller cross sectional size and area than the inner chamber of the extrusion barrel, cutting the extruded single core composite strand into shorter composite strands of equal length, filling the extrusion barrel with a plurality of the single core composite strands, simultaneously extruding the plurality of composite strands through the extrusion die and thereby forming a multiple core composite strand, cutting the multiple core composite strand into unfired green composite ceramic bodies and firing or alternatively prior to the cutting and firing steps again cutting the multiple core composite strand into equal lengths, refilling of the barrel therewith and extruding of a plurality of the multiple core composite strands through the extrusion die one or more times necessary to produce a ceramic body with the desired number of channels and then firing to simultaneously burn out the organic cores and cure the ceramic body.

    Porous ceramic articles
    9.
    发明授权
    Porous ceramic articles 有权
    多孔陶瓷制品

    公开(公告)号:US06235665B1

    公开(公告)日:2001-05-22

    申请号:US09372441

    申请日:1999-08-11

    Applicant: Gary R. Pickrell Kenneth R. Butcher

    Inventor: Gary R. Pickrell Kenneth R. Butcher

    IPC: C04B3510

    CPC classification number: C04B38/0655 Y10T428/12153 Y10T428/249955 Y10T428/249971 Y10T428/249974 Y10T428/26 C04B35/00 C04B38/0051 C04B38/0074 C04B38/065 C04B38/067 C04B41/5025 C04B35/10 C04B35/48

    Abstract: An improved porous ceramic article and a method for forming such porous ceramic article. A mixture of ceramic particles and pliable organic hollow spheres is prepared in a liquid, typically as a suspension. The article is formed by pressing, slip casting, extruding or injection molding the mixture. The article is dried to remove the liquid, and then is fired so that the ceramic particles are bonded such as by sintering, and the organic spheres are burned off, resulting in a strong porous ceramic article having uniformly spaced interconnected voids.

    Abstract translation: 改进的多孔陶瓷制品和形成这种多孔陶瓷制品的方法。 在液体中制备陶瓷颗粒和柔韧的有机中空球的混合物,通常为悬浮液。 该制品通过压制,滑移浇铸,挤出或注塑成型形成。 将物品干燥以除去液体,然后烧制,使得陶瓷颗粒通过烧结而结合,并且有机球被烧掉,导致具有均匀间隔开的互连空隙的坚固的多孔陶瓷制品。

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