子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 包括陶瓷微粒的复合材料及其形成方法 | CN201410780156.6 | 2014-12-17 | CN104725067A | 2015-06-24 | A.瓦雷; R.唐纳森; M.L.拉富里斯特 |
| 本申请涉及包括陶瓷微粒的复合材料及其形成方法。在一些示例中,用于形成包括陶瓷微粒的部分致密的预制体的技术可包括将致密剂与金属氧化物微粒或金属氧化物前体混合以形成共混的致密剂,将共混的致密剂渗透到多孔预制体中,热解渗透的预制体以将致密剂转变成碳并形成部分致密的预制体,对部分致密的预制体热处理以将所述碳的至少一些与金属氧化物微粒反应以形成陶瓷微粒。还描述了由多孔预制体形成的复合材料,其中共混的致密剂被设置在该预制体的孔中。 | ||||||
| 2 | Electromechanical transducer element, liquid discharge head, liquid discharge device, and liquid discharge apparatus | US15447266 | 2017-03-02 | US09969161B2 | 2018-05-15 | Masaru Shinkai; Satoshi Mizukami; Toshiaki Masuda |
| An electromechanical transducer element includes a first electrode, a second electrode, and a piezoelectric material. The piezoelectric material is disposed between the first electrode and the second electrode and deformable with a voltage applied in accordance with a drive signal. The piezoelectric material is made of a composite oxide having a perovskite structure preferentially oriented in at least one of a (100) plane and a (001) plane. A drop in diffraction intensity is included in a rocking curve corresponding to at least one of a (200) plane and a (002) plane measured at a position of 2θ where the diffraction intensity is largest at a peak of diffraction intensity corresponding to the (200) plane out of peaks of diffraction intensity measured by an X-ray diffraction θ-2θ method. | ||||||
| 3 | SENSOR ELEMENT AND METHOD FOR MANUFACTURING A SENSOR ELEMENT | US15771004 | 2016-11-03 | US20180321182A1 | 2018-11-08 | Hans-Joerg Renz; Ingrid Gerner; Jens Schneider; Sabine Roesch; Sarah Richter |
| A sensor element for an exhaust gas sensor includes a ceramic base body whose surface includes at least one surface region that is electrically insulating, the sensor element including at least one flat guide structure, which is electrically conductive, along the surface region of the base body. The guide structure is partially embedded in the base body in a direction perpendicular to the surface. | ||||||
| 4 | ELECTROMECHANICAL TRANSDUCER ELEMENT, LIQUID DISCHARGE HEAD, LIQUID DISCHARGE DEVICE, AND LIQUID DISCHARGE APPARATUS | US15447266 | 2017-03-02 | US20170253040A1 | 2017-09-07 | Masaru SHINKAI; Satoshi MIZUKAMI; Toshiaki MASUDA |
| An electromechanical transducer element includes a first electrode, a second electrode, and a piezoelectric material. The piezoelectric material is disposed between the first electrode and the second electrode and deformable with a voltage applied in accordance with a drive signal. The piezoelectric material is made of a composite oxide having a perovskite structure preferentially oriented in at least one of a (100) plane and a (001) plane. A drop in diffraction intensity is included in a rocking curve corresponding to at least one of a (200) plane and a (002) plane measured at a position of 2θ where the diffraction intensity is largest at a peak of diffraction intensity corresponding to the (200) plane out of peaks of diffraction intensity measured by an X-ray diffraction 0-20 method. | ||||||
| 5 | Composite materials including ceramic particles and methods of forming the same | US14132915 | 2013-12-18 | US09272950B2 | 2016-03-01 | Akshay Waghray; Richard Donaldson; Mark L. La Forest |
| In some examples, a technique for forming a partially densified preform including ceramic particles may include mixing a densifying agent with metal oxide particles or metal oxide precursor to form a blended densifying agent, infiltrating the blended densifying agent in to a porous preform, pyrolyzing the infiltrated preform to convert the densifying agent to carbon and form a partially densified preform, and heat treating the partially densified preform to react at least some of the carbon with the metal oxide particles to form ceramic particles. Composite materials formed from porous preforms in which a blended densifying agent is disposed in pores of the preform are also described. | ||||||
| 6 | COMPOSITE MATERIALS INCLUDING CERAMIC PARTICLES AND METHODS OF FORMING THE SAME | US14132915 | 2013-12-18 | US20150166410A1 | 2015-06-18 | Akshay Waghray; Richard Donaldson; Mark L. La Forest |
| In some examples, a technique for forming a partially densified preform including ceramic particles may include mixing a densifying agent with metal oxide particles or metal oxide precursor to form a blended densifying agent, infiltrating the blended densifying agent in to a porous preform, pyrolyzing the infiltrated preform to convert the densifying agent to carbon and form a partially densified preform, and heat treating the partially densified preform to react at least some of the carbon with the metal oxide particles to form ceramic particles. Composite materials formed from porous preforms in which a blended densifying agent is disposed in pores of the preform are also described. | ||||||
| 7 | 電気機械変換素子、液体吐出ヘッド、液体吐出ユニット及び液体を吐出する装置 | JP2016041817 | 2016-03-04 | JP2017157773A | 2017-09-07 | 真貝 勝; 水上 智; 益田 俊顕 |
| 【課題】圧電体における圧電効果による変形を大きくして、駆動対象である変位板をより大きく変位させることを課題とする。 【解決手段】少なくとも第一電極411、圧電体412、第二電極413が順次積層され、駆動信号に応じた電圧を該第一電極と該第二電極との間に印加して該圧電体を変形させる電気機械変換素子において、前記圧電体は、(100)面及び/又は(001)面に優先配向されたペロブスカイト型構造を有する複合酸化物で構成され、X線回折のθ−2θ法による測定で得られた回折強度のピークのうち(200)面に対応する回折強度のピークにおいて回折強度が最大となる位置(2θ)で測定される(200)面及び/又は(002)面に対応するロッキングカーブ中に回折強度の落ち込み部分を有する。 【選択図】図1 |
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| 8 | Composite materials including ceramic particles and methods of forming the same | EP14194164.1 | 2014-11-20 | EP2886525A1 | 2015-06-24 | WAGHRAY, Akshay; DONALDSON, Richard; LA FOREST, Mark L. |
In some examples, a technique for forming a partially densified preform including ceramic particles (62) may include mixing a densifying agent with metal oxide particles or metal oxide precursor to form a blended densifying agent, infiltrating the blended densifying agent in to a porous preform, pyrolyzing the infiltrated preform to convert the densifying agent to carbon and form a partially densified preform (50), and heat treating the partially densified preform (50) to react at least some of the carbon with the metal oxide particles to form ceramic particles (62). Composite materials formed from porous preforms in which a blended densifying agent is disposed in pores of the preform are also described.
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| 9 | 음이온 및 원적외선 발생 냉, 온 팩 | KR1020080076435 | 2008-08-05 | KR1020100016808A | 2010-02-16 | 이상찬 |
| PURPOSE: A heating or cooling pack capable of emitting far-infrared ray and anion is provided to transfer coldness or warmth to the user and prevent the multiplication of mold or bacteria. CONSTITUTION: A heating or cooling pack(100) capable of emitting far-infrared ray and anion comprises a cooling or heating medium(200), an inner case(110), and an outer case(120). The inner case includes a receiving part to keep the cooling or heating medium. The inner case is accommodated in the outer case. The outer case has a condensation prevention layer, an antifungal layer and an anion layer which are successively laminated. | ||||||
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