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公开(公告)号:US20190352730A1
公开(公告)日:2019-11-21
申请号:US16388085
申请日:2019-04-18
申请人: Akihiko CHIBA , Kenta AOYAGI , Chikatoshi MAEDA , Toshihiro MOURI
发明人: Akihiko CHIBA , Kenta AOYAGI , Chikatoshi MAEDA , Toshihiro MOURI
IPC分类号: C21D9/00 , C22C38/24 , C22C38/02 , C22C38/04 , C22C38/00 , B33Y10/00 , B33Y40/00 , B33Y80/00 , B33Y70/00 , B23K15/00
摘要: A microalloyed steel component according to an aspect of the present disclosure includes a structure composed of ferrite and pearlite. The microalloyed steel component includes a columnar structure including band-shaped pearlite layers extending in a longitudinal direction of the microalloyed steel component and having a width of 200 μm or shorter, and a ferrite layer precipitated so as to extend in the longitudinal direction between the pearlite layers.
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公开(公告)号:US20130284325A1
公开(公告)日:2013-10-31
申请号:US13988123
申请日:2011-11-22
申请人: Sang-Hak Lee , Yoshiki Ono , Hiroaki Matsumoto , Akihiko Chiba
发明人: Sang-Hak Lee , Yoshiki Ono , Hiroaki Matsumoto , Akihiko Chiba
摘要: An alloy having an α′ martensite which is a processing starting structure is hot worked. The alloy is heated at a temperature increase rate of 50 to 800° C./sec, and strain is given at not less than 0.5 by a processing strain rate of from 0.01 to 10/sec in a case of a temperature range of 700 to 800° C., or by a processing strain rate of 0.1 to 10/sec in a case of a temperature range of 800° C. to 1000° C. By generating equiaxial crystals having average crystal particle diameters of less than 1000 nm through the above processes, a titanium alloy having high strength and high fatigue resistant property can be obtained, in which hardness is less than 400 HV, tensile strength is not less than 1200 MPa, and static strength and dynamic strength are superior.
摘要翻译: 具有作为加工起始结构的α'马氏体的合金被热加工。 以50〜800℃/秒的升温速度加热合金,在700〜700℃的温度范围内,通过0.01〜10 /秒的加工变形速度,使应变为0.5以上 800℃,或者在800〜1000℃的温度范围内,通过加工应变速度为0.1〜10 /秒。通过生成平均结晶粒径小于1000nm的等轴晶体,通过 可以得到硬度小于400HV,拉伸强度不小于1200MPa,静态强度和动态强度优异的高强度,高耐疲劳性的钛合金。
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3.发明申请Bio-Co-Cr-Mo Alloy With Ion Elution Suppressed by Structure Control, And Process For Producing Same 审中-公开通过结构控制抑制离子洗脱的Bio-Co-Cr-Mo合金及其制备方法公开(公告)号:US20080251163A1
公开(公告)日:2008-10-16
申请号:US11577715
申请日:2005-03-28
申请人: Akihiko Chiba , Shingo Kurosu , Naoyuki Nomura
发明人: Akihiko Chiba , Shingo Kurosu , Naoyuki Nomura
CPC分类号: C22F1/10 , A61F2/28 , A61F2/3094 , A61F2/32 , A61F2/38 , A61F2/3804 , A61F2/40 , A61F2/4202 , A61F2310/00029 , A61K6/0044 , A61K6/043 , A61K33/24 , A61L27/045 , A61L27/047 , C22C1/00 , C22C19/07 , A61K2300/00
摘要: This invention provides a technique for rendering bio-toxicity such as allergy toxicity derived from Ni trace impurity, i.e., nickel toxicity, which is unavoidably present in a bio-Co—Cr—Mo alloy or an Ni-free stainless steel alloy unharmful, characterized in that an element selected from the group consisting of the group 4, 5 and 13 elements of the periodic table, particularly an element selected from the group consisting of the group 4 elements of the periodic table, is added to the alloy composition. The additive element is preferably an element selected from the group consisting of zirconium and titanium, more preferably zirconium.
摘要翻译: 本发明提供了一种生物毒性的技术,例如由Ni微量杂质衍生的过敏毒性,即镍毒性,其不可避免地存在于生物Co-Cr-Mo合金或不含Ni的不锈钢合金中,其特征在于 因为从合金组合物中添加选自周期表第4,5和13族元素,特别是选自元素周期表第4族元素的元素的元素。 添加元素优选为选自锆和钛,更优选锆的元素。
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公开(公告)号:US09624565B2
公开(公告)日:2017-04-18
申请号:US13988123
申请日:2011-11-22
申请人: Sang-Hak Lee , Yoshiki Ono , Hiroaki Matsumoto , Akihiko Chiba
发明人: Sang-Hak Lee , Yoshiki Ono , Hiroaki Matsumoto , Akihiko Chiba
摘要: An alloy having an α′ martensite which is a processing starting structure is hot worked. The alloy is heated at a temperature increase rate of 50 to 800° C./sec, and strain is given at not less than 0.5 by a processing strain rate of from 0.01 to 10/sec in a case of a temperature range of 700 to 800° C., or by a processing strain rate of 0.1 to 10/sec in a case of a temperature range of 800° C. to 1000° C. By generating equiaxial crystals having average crystal particle diameters of less than 1000 nm through the above processes, a titanium alloy having high strength and high fatigue resistant property can be obtained, in which hardness is less than 400 HV, tensile strength is not less than 1200 MPa, and static strength and dynamic strength are superior.
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公开(公告)号:US20120168042A1
公开(公告)日:2012-07-05
申请号:US13496750
申请日:2010-09-22
申请人: Sang-Hak Lee , Yoshiki Ono , Kazuya Ikai , Hiroaki Matsumoto , Akihiko Chiba
发明人: Sang-Hak Lee , Yoshiki Ono , Kazuya Ikai , Hiroaki Matsumoto , Akihiko Chiba
摘要: A titanium alloy has high strength and superior workability and is preferably used for various structural materials for automobiles, etc. The titanium alloy is obtained by the following production method. An alloy having a structure of α′ martensite phase is hot worked at conditions at which dynamic recrystallization occurs. The working is performed at a heating rate of 50 to 800° C./second at a strain rate of 0.01 to 10/second when the temperature is 700 to 800° C. or at a strain rate of 0.1 to 10/second when the temperature is more than 800° C. and less than 1000° C. so as to provide a strain of not less than 0.5. Thus, equiaxed crystals with an average grain size of less than 1000 nm are obtained.
摘要翻译: 钛合金的强度高,加工性优异,优选用于汽车等的各种结构材料。钛合金通过以下的制造方法得到。 具有α'马氏体相结构的合金在发生动态再结晶的条件下热加工。 当温度为700至800℃时,以0.1至10 /秒的应变速率,以0.1至10 /秒的应变速率,以50至800℃/秒的加热速率进行加工,应变速率为0.01至10 /秒 温度超过800℃且小于1000℃,以提供不小于0.5的应变。 因此,得到平均粒径小于1000nm的等轴晶体。
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6.发明申请BIO-CO-CR-MO ALLOY WITH ION ELUTION SUPPRESSED BY STRUCTURE CONTROL, AND PROCESS FOR PRODUCING SAME 审中-公开具有通过结构控制抑制的离子液体的BIO-CO-CR-MO合金及其生产方法公开(公告)号:US20110023661A1
公开(公告)日:2011-02-03
申请号:US12891622
申请日:2010-09-27
申请人: Akihiko Chiba , Shingo Kurosu , Naoyuki Nomura
发明人: Akihiko Chiba , Shingo Kurosu , Naoyuki Nomura
CPC分类号: C22F1/10 , A61F2/28 , A61F2/3094 , A61F2/32 , A61F2/38 , A61F2/3804 , A61F2/40 , A61F2/4202 , A61F2310/00029 , A61K6/0044 , A61K6/043 , A61K33/24 , A61L27/045 , A61L27/047 , C22C1/00 , C22C19/07 , A61K2300/00
摘要: This invention provides a technique for rendering bio-toxicity such as allergy toxicity derived from Ni trace impurity, i.e., nickel toxicity, which is unavoidably present in a bio-Co—Cr—Mo alloy or an Ni-free stainless steel alloy unharmful, characterized in that an element selected from the group consisting of the group 4, 5 and 13 elements of the periodic table, particularly an element selected from the group consisting of the group 4 elements of the periodic table, is added to the alloy composition. The additive element is preferably an element selected from the group consisting of zirconium and titanium, more preferably zirconium.
摘要翻译: 本发明提供了一种生物毒性的技术,例如由Ni微量杂质衍生的过敏毒性,即镍毒性,其不可避免地存在于生物Co-Cr-Mo合金或不含Ni的不锈钢合金中,其特征在于 因为从合金组合物中添加选自周期表第4,5和13族元素,特别是选自元素周期表第4族元素的元素的元素。 添加元素优选为选自锆和钛,更优选锆的元素。
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公开(公告)号:US4966820A
公开(公告)日:1990-10-30
申请号:US346649
申请日:1989-05-03
申请人: Yoshitaka Kojima , Akira Mebata , Akihiko Chiba , Ryoichiro Ohoshima , Norio Watanabe , Yukiyoshi Hara
发明人: Yoshitaka Kojima , Akira Mebata , Akihiko Chiba , Ryoichiro Ohoshima , Norio Watanabe , Yukiyoshi Hara
CPC分类号: C23C4/02 , C23C28/00 , Y10T428/12542 , Y10T428/1259 , Y10T428/12618 , Y10T428/12931
摘要: A ceramic-coated heat resisting alloy member comprises a base metal mainly composed of at least one of nickel, cobalt and iron; a mixture layer which is deposited on the external surface of the base metal and which comprises a ceramics and a metal; an alloy layer which is formed between the mixture layer and a ceramic coating layer formed as an outermost layer and which comprises an alloy material exhibiting excellent resistance to high temperature oxidation and excellent resistance to high temperature corrosion. It is therefore possible to prevent any high temperature oxidation and high temperature corrosion of the mixture layer and to enable the mixture layer to have a satisfactory function of reducing the thermal stress produced between the ceramic coating layer and the base metal. The ceramic coating thus has a satisfactory thermal barrier effect on the base metal. In addition, it is therefore possible to provide the ceramic-coated heat resisting alloy member as a useful structural member for improving the power efficiency of gas turbine plants used for power generation.
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公开(公告)号:US4897933A
公开(公告)日:1990-02-06
申请号:US243069
申请日:1988-09-09
申请人: Junya Ito , Akihiko Chiba , Masuo Oku , Hitoshi Komada
发明人: Junya Ito , Akihiko Chiba , Masuo Oku , Hitoshi Komada
CPC分类号: F26B7/00 , A47L15/4259 , A47L15/488
摘要: A tableware drying machine, comprising a drying tank accommodated in a drying machine housing and a container frame for receiving a tableware container, the frame being connected with a motor means installed in the drying tank and rotated at high speed, and the container containing tableware such as a spoon which has been washed with hot water, wherein the container frame is rotated at high speed to dry the tableware by means of centrifugal force, and a forced air stream is generated such that the container frame and container rotating at high speed function themselves as a centrifugal fan that takes in air through air intake holes provided in an opening-and-closing lid of the drying tank, directs the air towards the center of the drying tank, and discharges the air through outlet openings provided in the upper periphery of the drying tank to make the air entrain moisture in the tank.
摘要翻译: 一种餐具烘干机,包括容纳在干燥机壳体中的干燥箱和用于容纳餐具容器的容器框架,所述框架与安装在所述干燥箱中并以高速旋转的马达装置连接,并且所述容器包含餐具 作为已经用热水洗涤的勺子,其中容器框架以高速旋转以通过离心力干燥餐具,并且产生强制空气流,使得高速旋转的容器框架和容器本身起作用 作为通过设置在干燥箱的开闭盖上的进气孔吸入空气的离心式风扇,将空气引导到干燥箱的中心,并通过设置在干燥箱的上部周边的出口开口排出空气 干燥箱使空气中夹带水分。
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公开(公告)号:US4584741A
公开(公告)日:1986-04-29
申请号:US756381
申请日:1985-07-18
申请人: Akira Kawahara , Akihiko Chiba
发明人: Akira Kawahara , Akihiko Chiba
CPC分类号: B60P7/0838 , Y10S24/909 , Y10T24/21 , Y10T24/2117 , Y10T24/2175
摘要: A clasping device which has a main assembly including a body, and a lever connected by means of links. A first hook is connected with the body, while a second hook is connected with the lever by means of a strap. The strap can be tightened and loosened by rotating the lever between the release and tightening positions. The body has a claw member for temporarily holding the tightened strap. Therefore, by utilizing the claw member, the lever can be repeatedly operated in order to increasingly tighten the strap.
摘要翻译: 一种夹紧装置,其具有包括主体的主组件和通过连杆连接的杆。 第一钩与主体连接,而第二钩通过带与杠杆连接。 通过在释放和拧紧位置之间旋转杠杆可以使带子拧紧和松开。 主体具有用于暂时固定紧固带的爪部件。 因此,通过利用爪构件,可以重复地操作杠杆以便越来越多地收紧带子。
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公开(公告)号:US20160097115A1
公开(公告)日:2016-04-07
申请号:US14966817
申请日:2015-12-11
申请人: Akihiko Chiba , Takuma Otomo , Yasunori Akasaka , Tomoo Kobayashi , Ryo Sugawara
发明人: Akihiko Chiba , Takuma Otomo , Yasunori Akasaka , Tomoo Kobayashi , Ryo Sugawara
CPC分类号: C22F1/10 , B22D7/005 , C21D1/26 , C21D2211/008 , C22C1/02 , C22C1/023 , C22C19/00 , C22C19/03 , C22C19/055 , C22C19/056 , C22C19/07 , C22C30/00 , C22F1/16 , H01F1/147
摘要: Provided is a Co—Ni-based alloy in which a crystal is easily controlled, a method of controlling a crystal of a Co—Ni-based alloy, a method of producing a Co—Ni-based alloy, and a Co—Ni-based alloy having controlled crystallinity. The Co—Ni-based alloy includes Co, Ni, Cr, and Mo, in which the Co—Ni-based alloy has a crystal texture in which a Goss orientation is a main orientation. The Co—Ni-based alloy preferably has a composition including, in terms of mass ratio: 28 to 42% of Co, 10 to 27% of Cr, 3 to 12% of Mo, 15 to 40% of Ni, 0.1 to 1% of Ti, 1.5% or less of Mn, 0.1 to 26% of Fe, 0.1% or less of C, and an inevitable impurity; and at least one kind selected from the group consisting of 3% or less of Nb, 5% or less of W, 0.5% or less of Al, 0.1% or less of Zr, and 0.01% or less of B.
摘要翻译: 提供一种易于控制晶体的Co-Ni基合金,控制Co-Ni系合金的结晶的方法,Co-Ni系合金的制造方法以及Co-Ni系合金的制造方法, 具有受控的结晶度。 Co-Ni基合金包括Co,Ni,Cr和Mo,其中Co-Ni基合金具有其中Goss取向为主要取向的晶体结构。 Co-Ni系合金优选具有质量比:Co:28〜42%,Cr:10〜27%,Mo:3〜12%,Ni:15〜40%,Ni:0.1〜1 ,Ti:1.5%以下,Fe:0.1〜26%,C:0.1%以下,不可避免的杂质; 以及选自由3%以下的Nb,5%以下的W,0.5%以下的Al,0.1%以下的Zr和0.01%以下的B组成的组中的至少1种。
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