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    • 1. 发明授权
    • Stress release method
    • 压力释放法
    • US06743390B2
    • 2004-06-01
    • US09973351
    • 2001-10-09
    • Robert C. U. YuJohn A. Bergfjord, Sr.
    • Robert C. U. YuJohn A. Bergfjord, Sr.
    • B29C7100
    • G03G5/10B29C71/0072B29C71/02B29C2071/022B29L2029/00G03G5/047G03G5/14
    • A method of treating a flexible multi-layer member exhibiting a glass transition temperature and including a surface layer, the method composed of: moving the member through a member path including: a contact zone defined by contact of the member with an arcuate surface including a curved contact zone region; a pre-contact member path before the contact zone; and a post-contact member path after the contact zone; heating sequentially each portion of the surface layer such that each of the heated surface layer portions has a temperature above the glass transition temperature while in the curved contact zone region; and cooling sequentially each of the heated surface layer portions while in the contact zone such that the temperature of each of the heated surface layer portions falls to below the glass transition temperature prior to each of the heated surface layer portions exiting the curved contact zone region, thereby defining a cooling region, wherein the heating is accomplished in a heating region encompassing any part or all of the contact zone outside the cooling region and a portion of the pre-contact member path adjacent the contact zone.
    • 一种处理具有玻璃化转变温度并包括表面层的柔性多层构件的方法,所述方法包括:通过构件路径移动所述构件,所述构件路径包括:通过所述构件与弓形表面的接触限定的接触区域,所述接触区域包括 弯曲接触区域; 在接触区之前的预接触构件路径; 以及在接触区之后的接触后构件路径; 依次加热表面层的每个部分,使得每个加热的表面层部分在弯曲的接触区域中具有高于玻璃化转变温度的温度; 并且在接触区域中顺序地冷却每个加热的表面层部分,使得在每个加热的表面层部分离开弯曲的接触区域区域之前,每个加热的表面层部分的温度降至低于玻璃化转变温度, 从而限定冷却区域,其中,加热区域包括在冷却区域外部的接触区域的任何部分或全部的加热区域以及与接触区域相邻的预接触构件路径的一部分。
    • 3. 发明授权
    • Process for producing piezoelectric ceramics
    • 制造压电陶瓷的工艺
    • US06299815B1
    • 2001-10-09
    • US09640253
    • 2000-08-16
    • Masahiko KimuraAkira Ando
    • Masahiko KimuraAkira Ando
    • B29C7100
    • C04B35/465C04B35/495C04B35/653H01L41/1878H01L41/41
    • A ceramic composition (sample) includes CaBi4Ti4O15 or another compound having a layered perovskite crystal structures and exhibiting ferroelectricity at ordinary temperature. The ceramic composition (sample) is then heated to a temperature higher than the melting point of the ceramic composition to make the ceramic composition molten or semi-molten. The ceramic composition is then annealed and solidified to yield a grain oriented ceramic (porcelain). This process can produce grain oriented ceramics from ceramic compositions mainly containing a compound having a layered perovskite crystal structure, and can improve electromechanical coefficients of piezoelectric ceramics containing a compound having a layered perovskite crystal structure.
    • 陶瓷组合物(样品)包括CaBi 4 Ti 4 O 15或具有层状钙钛矿晶体结构并在常温下显示出铁电性的另一种化合物。 然后将陶瓷组合物(样品)加热到高于陶瓷组合物的熔点的温度,以使陶瓷组合物熔融或半熔融。 然后将陶瓷组合物退火并固化,得到晶粒取向的陶瓷(瓷)。 该方法可以由主要含有层状钙钛矿晶体结构的化合物的陶瓷组合物制造晶粒取向陶瓷,并且可以提高含有具有层状钙钛矿晶体结构的化合物的压电陶瓷的机电系数。
    • 4. 发明授权
    • Method for net-shaping using aerogels
    • 使用气凝胶进行净整形的方法
    • US06258305B1
    • 2001-07-10
    • US09539199
    • 2000-03-29
    • C. Jeffrey BrinkerCarol S. AsheyScott T. ReedChunangad S. SriramThomas M. Harris
    • C. Jeffrey BrinkerCarol S. AsheyScott T. ReedChunangad S. SriramThomas M. Harris
    • B29C7100
    • B01J13/0091
    • A method of net-shaping using aerogel materials is provided by first forming a sol, aging the sol to form a gel, with the gel having a fluid component and having been formed into a medium selected from the group consisting of a powder, bulk material, or granular aerobeads, derivatizing the surface of the gel to render the surface unreactive toward further condensation, removing a portion of the fluid component of the final shaped gel to form a partially dried medium, placing the medium into a cavity, wherein the volume of said medium is less that the volume of the cavity, and removing a portion of the fluid component of the medium. The removal, such as by heating at a temperature of approximately less than 50° C., applying a vacuum, or both, causes the volume of the medium to increase and to form a solid aerogel. The material can be easily removed by exposing the material to a solvent, thereby reducing the volume of the material. In another embodiment, the gel is derivatized and then formed into a shaped medium, where subsequent drying reduces the volume of the shaped medium, forming a net-shaping material. Upon further drying, the material increases in volume to fill a cavity. The present invention is both a method of net-shaping and the material produced by the method.
    • 通过首先形成溶胶,使溶胶老化以形成凝胶,使凝胶具有流体成分并形成介质,提供使用气凝胶材料的网状成形方法,所述介质选自粉末,散装材料 或颗粒状aerobeads,衍生化凝胶的表面以使表面不反应进一步冷凝,去除最终成形凝胶的流体组分的一部分以形成部分干燥的介质,将介质置于空腔中,其中体积 所述介质小于空腔的体积,并且去除介质的流体组分的一部分。 诸如通过在大约低于50℃的温度下加热,施加真空或两者的去除使得介质的体积增加并形成固体气凝胶。 通过将材料暴露于溶剂,可以容易地除去材料,从而减小材料的体积。 在另一个实施方案中,将凝胶衍生化,然后形成成形介质,其中随后的干燥减小成形介质的体积,形成网状成形材料。 在进一步干燥时,材料的体积增加以填充空腔。 本发明既是净成形方法,也是由该方法制造的材料。
    • 6. 发明授权
    • Method for production of a spiral-shaped heating element
    • 螺旋形加热元件的制造方法
    • US06464918B1
    • 2002-10-15
    • US09385851
    • 1999-08-30
    • Joachim ScherzerSiegfried Grob
    • Joachim ScherzerSiegfried Grob
    • B29C7100
    • H05B3/46H01K1/06H01K3/02H05B3/0057H05B3/141H05B3/145H05B3/42H05B2203/032
    • In the production of spiral-shaped heating elements, a device winds an oblong base material onto a mandrel while forming a spiral with the base material and equips the ends of the spiral with contacts for electrical connection. The device includes a feeding device for supplying the mandrel, onto whose casing surface the base material is wound in a spiral shape, with the oblong base material. In order to carry out a method for the production of a spiral-shaped heating element made of material containing carbon fibers, the method is as follows: utilize a base material that comprises carbon fibers which have been embedded into IBM a thermoplastic embedding compound, heat the base material to a temperature at which the embedding compound softens, wind the softened base material onto the mandrel while forming the spiral, and set the spiral shape by removing the embedding compound. On the device used to carry out the method, there is included a heating device which affects the base material in the area of the casing surface of the mandrel and can be adjusted to a temperature above the softening temperature of the embedding compound. The invented heating element, which distinguished itself due to its low thermal inertia and high radiation capacity at comparatively low temperatures, is formed in the shape of a spiral having a series of carbon fibers that are connected with each other.
    • 在螺旋形加热元件的生产中,装置将长方形基材卷绕到心轴上,同时与基底材料形成螺旋,并将螺旋的端部装配有用于电连接的触点。 该装置包括用于供应心轴的进给装置,其上的基体材料被卷绕成螺旋状的壳体表面与长方形基底材料。 为了实施由含有碳纤维的材料制成的螺旋形加热元件的方法,该方法如下:利用包含已经嵌入IBM中的碳纤维的基材,热塑性嵌入化合物,热 使基材达到嵌入化合物软化的温度,在形成螺旋状的同时将软化的基材卷绕到心轴上,并通过去除嵌入化合物来设定螺旋形状。 在用于实施该方法的装置上,包括加热装置,其影响心轴的壳体表面区域中的基材,并且可以调节到高于包埋化合物的软化温度的温度。 本发明的加热元件由于其在较低温度下的低热惯性和高辐射能力而自身识别,形成为具有彼此连接的一系列碳纤维的螺旋形状。
    • 8. 发明授权
    • Method for producing and conditioning blocks of flexible polyurethane foam
    • 柔性聚氨酯泡沫塑料块的生产和调节方法
    • US06261491B1
    • 2001-07-17
    • US09472751
    • 1999-12-28
    • Delane Marlowe
    • Delane Marlowe
    • B29C7100
    • B29C44/5609
    • A system for producing blocks of open-cell, flexible polyurethane foam material and for conditioning each freshly-manufactured block to impart thereto optimal flexible foam properties. The system includes means to pour the flowable constituent of the foam material to be manufactured into a production station at the inlet of a conveyor, the constituents interacting to create on the conveyor a block of open-cell flexible foam material which is then wrapped in a plastic film casing that exposes the leading and trailing end of the block so that the encased block is open ended. The conveyor transports the wrapped block toward the rear end of a gate in a conditioning station having a port therein whose front end is coupled by an air duct to a suction fan. When the exposed leading end of the wrapped block abuts the rear end of the gate, the suction fan draws ambient air into the block through its open trailing end and acts to evacuate from the wrapped block fumes, particulate matter entrained therein and other contaminants generated by an initial exothermic reaction in the block.
    • 用于生产开孔,柔性聚氨酯泡沫材料块和用于调节每个新制成的块以赋予其最佳柔性泡沫性质的系统。 该系统包括将待制造的泡沫材料的可流动组分倒入输送机入口处的装置,所述组分相互作用以在输送机上产生一块开孔柔性泡沫材料块,然后将其包裹在 塑料薄膜外壳,其暴露块的前端和后端,使得封装块是开放的。 输送机将包装的块向具有端口的调节站中的门的后端输送,其前端通过风道与吸风机相连。 当被包裹的块​​的暴露的前端邻接门的后端时,抽吸风扇通过其开放的后端将环境空气吸入到块中,并且作用于从包裹的块状烟雾,夹在其中的颗粒物质和由其产生的其它污染物 在块中的初始放热反应。