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    • 4. 发明授权
    • Additives for property modification in ceramic composite bodies
    • 陶瓷复合材料的改性添加剂
    • US5403790A
    • 1995-04-04
    • US960407
    • 1993-01-11
    • Terry D. ClaarGerhard H. SchirokyKevin P. PochopienVilupanur A. RaviJames C. WangRatnesh K. Dwivedi
    • Terry D. ClaarGerhard H. SchirokyKevin P. PochopienVilupanur A. RaviJames C. WangRatnesh K. Dwivedi
    • C04B35/56C04B35/58C04B35/65C04B41/50C04B41/87C22C29/00C22C29/06B22F3/26
    • C04B35/563C04B35/5622C04B35/58078C04B35/65C04B35/652C04B41/5062C04B41/87C22C29/00C22C29/06C22C29/062
    • This invention relates generally to a novel method of manufacturing a composite body. More particularly, the present invention relates to a method for modifying the resultant properties of a composite body, by, for example, minimizing the amount of porosity present in the composite body. Moreover, additives, whether used alone or in combination, (1) can be admixed with the permeable mass, (2) can be mixed or alloyed with the parent metal, (3) can be placed at an interface between the parent metal and the preform or mass of filler material, (4) or any combination of the aforementioned methods, to modify properties of the resultant composite body. Particularly, additives such as VC, NbC, WC, W.sub.2 B.sub.5, TaC, ZrC, ZrB.sub.2, SiB.sub.6, SiC, MgO, Al.sub.2 O.sub.3, ZrO.sub.2, CeO.sub.2, Y.sub.2 O.sub.3, La.sub.2 O.sub.3, MgAl.sub.2 O.sub.4, HfO.sub.2, ZrSiO.sub.4, Yb.sub.2 O.sub.3 and Mo.sub.2 B.sub.5 can be combined with the permeable mass in an amount of about 5-50 percent by weight, prior to reactively infiltrating the permeable mass. Moreover, an additive may also include substantially pure elemental metals (e.g., Nb, Ti, Hf, V, Ta, Cr, Mo, Al, Cr, Si, Co and W) which may be provided by any of the methods discussed above herein.
    • PCT No.PCT / US91 / 04951 Sec。 371日期:1993年1月11日 102(e)日期1993年1月11日PCT PCT 1991年7月12日PCT公布。 公开号WO92 / 00933 日本1992年1月23日。本发明一般涉及一种制造复合体的新方法。 更具体地说,本发明涉及通过例如最小化复合体中存在的孔隙率来改变复合体的合成性能的方法。 此外,无论单独使用还是组合使用,添加剂(1)均可与可渗透物质混合,(2)可与母体金属混合或合金化,(3)可置于母体金属与母体金属之间的界面处 填充材料的预制件或质量,(4)或上述方法的任何组合,以改变所得复合材料的性能。 特别地,可以将诸如VC,NbC,WC,W2B5,TaC,ZrC,ZrB2,SiB6,SiC,MgO,Al2O3,ZrO2,CeO2,Y2O3,La2O3,MgAl2O4,HfO2,ZrSiO4,Yb2O3和Mo2B5的添加剂与渗透性 在反应性渗透可渗透物质之前,其质量为约5-50重量%。 此外,添加剂还可以包括可以通过上述任何方法提供的基本上纯的元素金属(例如,Nb,Ti,Hf,V,Ta,Cr,Mo,Al,Cr,Si,Co和W) 。
    • 8. 发明授权
    • High-temperature direct-contact thermal energy storage using
phase-change media
    • 使用相变介质的高温直接接触式热能储存
    • US4512388A
    • 1985-04-23
    • US506030
    • 1983-06-20
    • Terry D. ClaarRandy J. Petri
    • Terry D. ClaarRandy J. Petri
    • C09K5/06F28D20/02F24H7/04F28D17/00F28F23/00
    • F28D20/023C09K5/063Y02E60/145Y02E70/30Y02P20/13Y10T428/2982Y10T428/2991Y10T428/2993
    • A high-temperature direct-contact thermal energy storage element for use in a system for storage and retrieval of thermal energy in the range of about 400.degree. to about 3000.degree. F. The thermal energy is directly stored, without heat exchange tubes in composite latent/sensible heat thermal energy storage media utilizing the heat of fusion and high-temperature stability of alkaline metal and alkaline earth carbonates, chlorides, nitrates, nitrites, fluorides, hydroxides and sulfates and metal, metallic alloys and mixtures thereof maintained within a porous support-structure material which itself is capable of storage as sensible heat. The thermal energy storage according to the invention may be effectively utilized for storage of thermal energy derived from solar, industrial waste, process heat, and high-temperature gas reactor energy sources and retrieved for a wide variety of uses such as combustion air preheating, drying, space heating, heating of process gases, power generating heat engines and the like.
    • 一种高温直接接触式热能储存元件,用于在约400°至约3000°F范围内储存和回收热能的系统中。热能直接储存,无复合潜热的换热管 使用熔融热和碱金属和碱土金属碳酸盐,氯化物,硝酸盐,亚硝酸盐,氟化物,氢氧化物和硫酸盐的金属,金属合金及其混合物的热敏热存储介质,其保持在多孔载体 - 结构材料本身能够作为显热存储。 根据本发明的热能储存可以有效地用于储存源自太阳能,工业废物,工艺热和高温气体反应堆能源的热能,并且可用于多种用途,如燃烧空气预热,干燥 ,空间加热,工艺气体的加热,发电热机等。