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公开(公告)号:US20140246407A1
公开(公告)日:2014-09-04
申请号:US14273294
申请日:2014-05-08
Applicant: Abbott Cardiovascular Systems Inc.
Inventor: John A. Simpson , Michael Plattner , Frank Manning , Ryan Grandfield , Wayne E. Cornish
CPC classification number: A61M25/09 , A61M25/0009 , A61M2025/09083 , A61M2025/09108 , A61M2025/09133 , A61M2025/09141 , B23K11/02 , B23K15/0046 , B23K20/129 , B23K26/26 , B23K26/282 , Y10T29/49826
Abstract: An intravascular guide wire having two core materials joined together without the use of a connector tube or sleeve, the core materials being stainless steel and psuedoelastic metal alloy, nitinol. The core materials are joined to each other through an intermediate transition piece made essentially of nickel, which is welded on either side to the two core materials. In a multi-segment intravascular guide wire, discrete, high modulus and medium modulus core portions of different materials are welded to a shapeable, low modulus distal core portion made of a third material having a flattened, shapeable section at a most distal end that is not welded to but made from the distal core portion, so the flattened, shapeable section can be deformed to create a steerable tip. Processes such as simultaneous resistance and friction welding can be used to join the core portions.
Abstract translation: 一种血管内导丝,其两芯结合在一起,而不使用连接管或套筒,芯材为不锈钢和伪弹性金属合金,镍钛诺。 核心材料通过基本上由镍制成的中间过渡件相互连接,该中间过渡件在两侧焊接到两个芯材上。 在多段血管内引导线中,将不同材料的离散,高模量和中等模量和中等模量的芯部分焊接到由第三材料制成的可成形的低模量的远端芯部分,该第三材料在最远端具有扁平的,可成形的截面, 未被焊接到远端芯部制成,因此可以使扁平的可成形部分变形以产生可转向的尖端。 可以使用诸如同时电阻和摩擦焊接的工艺来连接芯部。
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公开(公告)号:US20130253374A1
公开(公告)日:2013-09-26
申请号:US13892959
申请日:2013-05-13
Applicant: ABBOTT CARDIOVASCULAR SYSTEMS INC.
Inventor: John A. Simpson , Michael Plattner , Frank Manning , Ryan Grandfield , Wayne E. Cornish
CPC classification number: A61M25/09 , A61M25/0009 , A61M2025/09083 , A61M2025/09108 , A61M2025/09133 , A61M2025/09141 , B23K11/02 , B23K15/0046 , B23K20/129 , B23K26/26 , B23K26/282 , Y10T29/49826
Abstract: An intravascular guide wire having two core materials joined together without the use of a connector tube or sleeve, the core materials being stainless steel and psuedoelastic metal alloy, nitinol. The core materials are joined to each other through an intermediate transition piece made essentially of nickel, which is welded on either side to the two core materials. In a multi-segment intravascular guide wire, discrete, high modulus and medium modulus core portions of different materials are welded to a shapeable, low modulus distal core portion made of a third material having a flattened, shapeable section at a most distal end that is not welded to but made from the distal core portion, so the flattened, shapeable section can be deformed to create a steerable tip. Processes such as simultaneous resistance and friction welding can be used to join the core portions.
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公开(公告)号:US08721564B2
公开(公告)日:2014-05-13
申请号:US13892959
申请日:2013-05-13
Applicant: Abbott Cardiovascular Systems Inc.
Inventor: John A. Simpson , Michael Plattner , Frank Manning , Ryan Grandfield , Wayne E. Cornish
IPC: A61B5/00
CPC classification number: A61M25/09 , A61M25/0009 , A61M2025/09083 , A61M2025/09108 , A61M2025/09133 , A61M2025/09141 , B23K11/02 , B23K15/0046 , B23K20/129 , B23K26/26 , B23K26/282 , Y10T29/49826
Abstract: An intravascular guide wire having two core materials joined together without the use of a connector tube or sleeve, the core materials being stainless steel and psuedoelastic metal alloy, nitinol. The core materials are joined to each other through an intermediate transition piece made essentially of nickel, which is welded on either side to the two core materials. In a multi-segment intravascular guide wire, discrete, high modulus and medium modulus core portions of different materials are welded to a shapeable, low modulus distal core portion made of a third material having a flattened, shapeable section at a most distal end that is not welded to but made from the distal core portion, so the flattened, shapeable section can be deformed to create a steerable tip. Processes such as simultaneous resistance and friction welding can be used to join the core portions.
Abstract translation: 一种血管内导丝,其两芯结合在一起,而不使用连接管或套筒,芯材为不锈钢和伪弹性金属合金,镍钛诺。 核心材料通过基本上由镍制成的中间过渡件相互连接,该中间过渡件在两侧焊接到两个芯材上。 在多段血管内引导线中,将不同材料的离散,高模量和中等模量和中等模量的芯部分焊接到由第三材料制成的可成形的低模量的远端芯部分,该第三材料在最远端具有扁平的,可成形的截面, 未被焊接到远端芯部制成,因此可以使扁平的可成形部分变形以产生可转向的尖端。 可以使用诸如同时电阻和摩擦焊接的工艺来连接芯部。
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