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    • 2. 发明申请
    • IMPLANT WITH A BASE BODY OF A BIOCORRODIBLE IRON ALLOY
    • 植物与生物可逆的铁合金的基体
    • US20090198320A1
    • 2009-08-06
    • US12366247
    • 2009-02-05
    • Heinz MuellerJoerg LoefflerPeter Uggowitzer
    • Heinz MuellerJoerg LoefflerPeter Uggowitzer
    • A61F2/82C22C38/00A61B17/122C22C38/04
    • A61L31/148A61L31/022
    • An implant having a base body comprising entirely or in part a biocorrodible iron alloy wherein the base body of the implant comprises at least one of the following: (i) a biocorrodible iron alloy of formula (1): Fe—P where the amount of P in the alloy is from 0.01 to 5 wt %, and Fe plus impurities due to the production process account for the remainder of the alloy up to 100 wt %; or (ii) a biocorrodible iron alloy of the formula (2): Fe—Mn—X where the amount of Mn in the alloy is from 5 to 30 wt %, X stands for one or more elements selected from the group consisting of Pt, Pd, Ir, Rh, Re, Ru and Os, and the amount of X in the alloy is from 0 to 20 wt % and Fe plus impurities due to the production process account for the remainder of the alloy up to 100 wt %; or (iii) a biocorrodible iron alloy of formula (3): Fe-Z where Z is one or more elements selected from the group consisting of Pt, Ir and Os and the amount of Z in the alloy is from 5 to 30 wt %, and Fe plus impurities due to the production process account for the remainder of the alloy up to 100 wt %.
    • 一种植入物,其具有全部或部分地包括生物可腐蚀的铁合金,其中所述植入物的基体包含以下至少一种:(i)式(1)的生物可腐蚀铁合金:Fe-P,其中, 合金中的P为0.01〜5重量%,由于生产工艺而导致的Fe +杂质占合金剩余部分达100重量% 或(ii)式(2)的生物可腐蚀铁合金:合金中Mn量为5〜30重量%的Fe-Mn-X,X表示选自Pt ,Pd,Ir,Rh,Re,Ru和Os,并且合金中的X的含量为0-20wt%,并且由于制造过程而导致的Fe +杂质占合金的剩余部分高达100wt% 或(iii)式(3)的生物可腐蚀铁合金:Fe-Z其中Z是选自Pt,Ir和Os中的一种或多种元素,合金中Z的量为5至30重量% ,并且由于生产过程,Fe加杂质导致合金的剩余部分高达100重量%。
    • 3. 发明授权
    • Implant with a base body of a biocorrodible iron alloy
    • 植入与生物可腐蚀的铁合金的基体
    • US08372144B2
    • 2013-02-12
    • US12366247
    • 2009-02-05
    • Heinz MuellerJoerg LoefflerPeter Uggowitzer
    • Heinz MuellerJoerg LoefflerPeter Uggowitzer
    • A61F2/06
    • A61L31/148A61L31/022
    • A base body for an implant comprising a biocorrodible iron alloy including at least one of the following: (i) a biocorrodible iron alloy of formula Fe—P where P is 0.01-5 wt %, and Fe plus impurities account for the remainder up to 100 wt %; or (ii) a biocorrodible iron alloy of formula Fe—Mn—X where Mn is 5-30 wt %, X is at least one of Pt, Pd, Ir, Rh, Re, Ru and Os, and X is 0-20 wt % and Fe plus impurities account for the remainder up to 100 wt %; or (iii) a biocorrodible iron alloy of formula Fe—Z where Z is at least one of Pt, Ir and Os and Z is 5-30 wt %, and Fe plus impurities account for the remainder up to 100 wt %.
    • 一种用于植入物的基体,其包含生物可腐蚀的铁合金,其包括以下至少一种:(i)式Fe-P的生物可腐蚀铁合金,其中P为0.01-5重量%,Fe加杂质占其余部分 100重量% 或(ii)式为Fe-Mn-X的生物可腐蚀铁合金,其中Mn为5-30重量%,X为Pt,Pd,Ir,Rh,Re,Ru和Os中的至少一种,X为0-20 重量%和Fe加杂质占剩余量高达100重量%; 或(iii)式为Fe-Z的生物可腐蚀铁合金,其中Z为Pt,Ir和Os中的至少一种,Z为5-30wt%,Fe +杂质占其余量的至多100wt%。
    • 4. 发明申请
    • MAGNESIUM ALLOY AND THE RESPECTIVE MANUFACTURING METHOD
    • 镁合金及相关制造方法
    • US20080031765A1
    • 2008-02-07
    • US11829665
    • 2007-07-27
    • Bodo GeroldHeinz MuellerJoerg LoefflerAnja HaenziPeter Uggowitzer
    • Bodo GeroldHeinz MuellerJoerg LoefflerAnja HaenziPeter Uggowitzer
    • C22C23/00B22D27/09C22C23/04C22C23/06
    • C22C23/00A61L31/022A61L31/148C22C23/04
    • A magnesium alloy, comprising: Y:0.5-10  Zn:0.5-6   Ca:0.05-1   Mn:  0-0.5 Ag:0-1 Ce:0-1 Zr:0-1 or Si: 0-0.4, wherein the amounts are based on weight-percent of the alloy and Mg, and manufacturing-related impurities constitute the remainder of the alloy to a total of 100 weight-percent. Also disclosed is a method for manufacturing such an alloy and a biodegradable implant formed therefrom.
    • 一种镁合金,包括:
      Y: ENTRY> 0.5-10 Zn: 0.5-6 ENTRY /> Ca: 0.05-1 Mn: 0-0.5 < ENTRY> Ag: 0-1 ENTRY> 0-1 Zr: 0-1或Si:0-0.4, / ROW> 其中的量基于合金和Mg的重量百分比,制造相关杂质构成 该合金总共达到100重量%。 还公开了一种用于制造这种合金和由其形成的可生物降解的植入物的方法。
        • 10. 发明授权
        • Lever arm suspension for use in an adhesive application head and adhesive application head with lever arm suspension
        • 杠杆臂悬挂用于粘合剂应用头和具有杠杆臂悬架的粘合剂应用头
        • US09296008B2
        • 2016-03-29
        • US13981854
        • 2011-06-07
        • Heinz MuellerChristoph KaeppeliFelix Huembeli
        • Heinz MuellerChristoph KaeppeliFelix Huembeli
        • B05C5/02B05C11/10
        • B05C5/0229B05C5/0225B05C5/0237B05C11/10
        • An application head for dispensing a flowable medium includes a nozzle chamber in the application head and a nozzle needle movably mounted in the nozzle chamber. A supply channel and a supply line introduce the medium into the nozzle chamber. A drive moves the movable element. A lever arm is movably fastened to the nozzle needle and connected to the drive. The lever arm extends through a membrane of a membrane suspension connect the lever arm movably to the application head and form a seal to prevent escape of the flowable medium. Alternatively, a rocker suspension has a lever arm connectable to the movable element and the drive, a plate element has an opening through which the lever arm extends, a rocker mounting device connects the lever arm movably to the application head and a sealing device prevents any escape of adhesive from the chamber through the plate element opening.
        • 用于分配可流动介质的应用头包括施加头中的喷嘴室和可移动地安装在喷嘴室中的喷嘴针。 供应通道和供应管路将介质引入喷嘴室。 驱动器移动可移动元件。 杠杆臂可移动地紧固到喷嘴针并连接到驱动器。 杠杆臂延伸穿过膜悬架的膜,将杠杆臂可移动地连接到施加头并形成密封,以防止可流动介质的逸出。 或者,摇杆悬架具有可连接到可移动元件和驱动器的杠杆臂,板元件具有杆臂延伸的开口,摇臂安装装置将杠杆臂可移动地连接到施加头,并且密封装置防止任何 粘合剂通过板元件开口从室逸出。