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    TITANIUM ALLOYS EXHIBITING RESISTANCE TO IMPACT OR SHOCK LOADING AND METHOD OF MAKING A PART THEREFROM
    2.
    发明授权
    TITANIUM ALLOYS EXHIBITING RESISTANCE TO IMPACT OR SHOCK LOADING AND METHOD OF MAKING A PART THEREFROM 有权

    公开(公告)号:EP3099833B1

    公开(公告)日:2018-06-27

    申请号:EP15703208.7

    申请日:2015-01-27

    申请人: Titanium Metals Corporation

    发明人: THOMAS, Roger KOSAKA, Yoji JAMES, Steven GARRATT, Paul

    IPC分类号: C22C14/00 C22F1/18

    CPC分类号: C22F1/183 C22C14/00 F04D29/023 F04D29/522

    摘要: Titanium alloys formed into a part or component used in applications where a key design criterion is the energy absorbed during deformation of the part when exposed to impact, explosive blast, and/or other forms of shock loading is described. The titanium alloys generally comprise a titanium base with added amounts of aluminum, an isomorphous beta stabilizing element such as vanadium, a eutectoid beta stabilizing element such as silicon and iron, and incidental impurities. The titanium alloys exhibit up to 70% or more improvement in ductility and up to a 16% improvement in ballistic impact resistance over a Ti-6Al-4V alloy, as well as absorbing up to 50% more energy than the Ti-6Al-4V alloy in Charpy impact tests. A method of forming a part that incorporates the titanium alloys and uses a combination of recycled materials and new materials is also described.

    TITANIUM ALLOYS EXHIBITING RESISTANCE TO IMPACT OR SHOCK LOADING AND METHOD OF MAKING A PART THEREFROM
    3.
    发明公开
    TITANIUM ALLOYS EXHIBITING RESISTANCE TO IMPACT OR SHOCK LOADING AND METHOD OF MAKING A PART THEREFROM 有权
    防冲击或耐冲击钛合金和方法其制造PART

    公开(公告)号:EP3099833A1

    公开(公告)日:2016-12-07

    申请号:EP15703208.7

    申请日:2015-01-27

    申请人: Titanium Metals Corporation

    发明人: THOMAS, Roger KOSAKA, Yoji JAMES, Steven GARRATT, Paul

    IPC分类号: C22C14/00 C22F1/18

    CPC分类号: C22F1/183 C22C14/00 F04D29/023 F04D29/522

    摘要: Titanium alloys formed into a part or component used in applications where a key design criterion is the energy absorbed during deformation of the part when exposed to impact, explosive blast, and/or other forms of shock loading is described. The titanium alloys generally comprise a titanium base with added amounts of aluminum, an isomorphous beta stabilizing element such as vanadium, a eutectoid beta stabilizing element such as silicon and iron, and incidental impurities. The titanium alloys exhibit up to 70% or more improvement in ductility and up to a 16% improvement in ballistic impact resistance over a Ti-6Al-4V alloy, as well as absorbing up to 50% more energy than the Ti-6Al-4V alloy in Charpy impact tests. A method of forming a part that incorporates the titanium alloys and uses a combination of recycled materials and new materials is also described.

    摘要翻译: 钛合金形成为部分或应用中使用的部件,其中一个关键的设计标准是部分的变形过程中吸收当暴露于影响,爆炸冲击波的能量,和/或其它形式的冲击负荷进行说明。 钛合金基因集会包括用的铝添加量,同晶的β稳定化元素的杂质的钛基:如钒,共析的β稳定化元素:如硅和铁以及附带的。 钛合金呈现高达70%或更多的改善延展性和高达超过一个Ti- 6Al-4V合金弹道耐冲击性的16%的改善,以及比在Ti-6AL-4V吸收高达50%以上的能量 合金简支梁冲击试验。 形成部分做的一种方法,结合了钛合金并使用回收材料和新材料的结合是这样描述的。