-
公开(公告)号:US10480042B2
公开(公告)日:2019-11-19
申请号:US15094554
申请日:2016-04-08
发明人: Daniel James Branagan , Andrew E. Frerichs , Brian E. Meacham , Grant G. Justice , Andrew T. Ball , Jason K. Walleser , Kurtis Clark , Logan J. Tew , Scott T. Anderson , Scott Larish , Sheng Cheng , Taylor L. Giddens , Alla V. Sergueeva
IPC分类号: C21D8/02 , C22C38/58 , C22C38/54 , C22C38/42 , C22C38/04 , C22C38/02 , C21D9/00 , C22C38/00 , C22C38/08 , C22C38/16 , C22C38/20 , C22C38/32 , C22C38/38 , B21D28/00
摘要: This disclosure is directed at methods for mechanical property improvement in a metallic alloy that has undergone one or more mechanical property losses as a consequence of shearing, such as in the formation of a sheared edge portion or a punched hole. Methods are disclosed that provide the ability to improve mechanical properties of metallic alloys that have been formed with one or more sheared edges which may otherwise serve as a limiting factor for industrial applications.
-
2.发明授权公开(公告)号:US08641840B2
公开(公告)日:2014-02-04
申请号:US13863911
申请日:2013-04-16
发明人: Daniel James Branagan , Brian E. Meacham , Jason K. Walleser , Andrew T. Ball , Grant G. Justice , Brendan L. Nation , Sheng Cheng , Alla V. Sergueeva
IPC分类号: C21D9/00
CPC分类号: C22C38/58 , C21D6/001 , C21D6/004 , C21D6/005 , C21D6/008 , C21D7/00 , C21D8/00 , C21D9/00 , C22C38/02 , C22C38/04 , C22C38/08 , C22C38/16 , C22C38/20 , C22C38/32 , C22C38/34 , C22C38/38 , C22C38/42 , C22C38/54
摘要: The present disclosure is directed and formulations and methods to provide non-stainless steel alloys having relative high strength and ductility. The alloys may be provided in sheet or pressed form and characterized by their particular alloy chemistries and identifiable crystalline grain size morphology. The alloys are such that they include boride pinning phases. In what is termed a Class 1 Steel the alloys indicate tensile strengths of 630 MPa to 1100 MPa and elongations of 10-40%. Class 2 Steel indicates tensile strengths of 875 MPa to 1590 MPa and elongations of 5-30%. Class 3 Steel indicates tensile strengths of 1000 MPa to 1750 MPa and elongations of 0.5-15%.
摘要翻译: 本公开的目的是提供具有相对高的强度和延展性的非不锈钢合金的配方和方法。 合金可以以片材或压制形式提供,其特征在于其特定的合金化学性质和可鉴定的晶粒尺寸形态。 这些合金使得它们包括硼化物钉扎相。 在所谓的1级钢中,合金表示630MPa至1100MPa的拉伸强度和10-40%的拉伸强度。 2级钢表示抗拉强度为875MPa至1590MPa,伸长率为5-30%。 3级钢的抗拉强度为1000MPa〜1750MPa,伸长率为0.5〜15%。
-
公开(公告)号:US20180010204A1
公开(公告)日:2018-01-11
申请号:US15643679
申请日:2017-07-07
发明人: Daniel James Branagan , Andrew E. Frerichs , Brian E. Meacham , Jason K. Walleser , Andrew T. Ball , Grant G. Justice , Kurtis R. Clark , Sheng Cheng , Scott T. Anderson , Scott T. Larish , Taylor L. Giddens , Logan J. Tew , Alla V. Sergueeva
摘要: This disclosure is related to high yield strength steel where yield strength can be increased without significantly affecting ultimate tensile strength (UTS) and in some cases, higher yield strength can be obtained without significant decrease in ultimate tensile strength and total elongation.
-
公开(公告)号:US10960487B2
公开(公告)日:2021-03-30
申请号:US16134005
申请日:2018-09-18
发明人: Daniel James Branagan , Alla V. Sergueeva , Brian E. Meacham , Andrew E. Frerichs , Sheng Cheng , Scott T. Larish , Grant G. Justice , Andrew T. Ball , Craig S. Parsons , Logan J. Tew , Scott T. Anderson , Kurtis R. Clark , Taylor L. Giddens , Tad V. Machrowicz , Jonathan M. Cischke
IPC分类号: B23K11/00 , B23K11/16 , C22C38/02 , C22C38/04 , C22C38/08 , C22C38/18 , C23C2/06 , C22C38/16 , B23K11/24 , B23K15/00 , B23K11/11 , C21D9/50 , B23K26/32 , B23K26/24 , B23K26/22 , C21D9/46 , B23K11/08 , B23K26/322 , C23C2/28 , C21D8/02 , C23C2/26 , B23K103/04 , B23K101/00 , B23K101/34 , B23K101/18
摘要: This disclosure relates to weldability of steel alloys that provide weld joints which retain hardness values in a heat affected zone adjacent to a fusion zone and which also have improved resistance to liquid metal embrittlement due to the presence of zinc coatings.
-
公开(公告)号:US10465260B2
公开(公告)日:2019-11-05
申请号:US15438313
申请日:2017-02-21
发明人: Daniel James Branagan , Andrew E. Frerichs , Brian E. Meacham , Grant G. Justice , Andrew T. Ball , Jason K. Walleser , Kurtis Clark , Logan J. Tew , Scott T. Anderson , Scott Larish , Sheng Cheng , Taylor L. Giddens , Alla V. Sergueeva
IPC分类号: C21D9/00 , C21D8/00 , C21D6/00 , B22D11/00 , C22C38/58 , C22C38/54 , C22C38/42 , C22C38/34 , C22C38/04 , C22C38/02 , B23H7/00 , B23K26/38 , B21D28/26 , B26F3/00 , C21D8/02 , C22C38/00 , C22C38/08 , C22C38/16 , C22C38/20 , C22C38/32 , C22C38/38 , B23K101/00 , B23K103/04 , B21D28/00
摘要: This disclosure is directed at methods for mechanical property improvement in a metallic alloy that has undergone one or more mechanical property losses as a consequence of forming an edge, such as in the formation of an internal hole or an external edge. Methods are disclosed that provide the ability to improve mechanical properties of metallic alloys that have been formed with one or more edges placed in the metallic alloy by a variety of methods which may otherwise serve as a limiting factor for industrial applications.
-
公开(公告)号:US10975453B2
公开(公告)日:2021-04-13
申请号:US16522708
申请日:2019-07-26
发明人: Daniel James Branagan , Andrew E. Frerichs , Brian E. Meacham , Grant G. Justice , Andrew T. Ball , Jason K. Walleser , Kurtis Clark , Logan J. Tew , Scott T. Anderson , Scott Larish , Sheng Cheng , Taylor L. Giddens , Alla V. Sergueeva
IPC分类号: C21D9/00 , C21D8/00 , C21D6/00 , B22D11/00 , B23H7/00 , C21D8/02 , C22C38/58 , C22C38/54 , C22C38/42 , C22C38/34 , C22C38/04 , C22C38/02 , B23K26/38 , B21D28/26 , B26F3/00 , C22C38/08 , C22C38/20 , C22C38/16 , C22C38/00 , C22C38/32 , C22C38/38 , B23K101/00 , B23K103/04 , B21D28/00
摘要: This disclosure is directed at methods for mechanical property improvement in a metallic alloy that has undergone one or more mechanical property losses as a consequence of forming an edge, such as in the formation of an internal hole or an external edge. Methods are disclosed that provide the ability to improve mechanical properties of metallic alloys that have been formed with one or more edges placed in the metallic alloy by a variety of methods which may otherwise serve as a limiting factor for industrial applications.
-
公开(公告)号:US10378078B2
公开(公告)日:2019-08-13
申请号:US15391237
申请日:2016-12-27
发明人: Daniel James Branagan , Andrew E. Frerichs , Brian E. Meacham , Grant G. Justice , Andrew T. Ball , Jason K. Walleser , Kurtis Clark , Logan J. Tew , Scott T. Anderson , Scott Larish , Sheng Cheng , Taylor L. Giddens , Alla V. Sergueeva
IPC分类号: C21D8/02 , C21D9/46 , C22C38/02 , C22C38/04 , C22C38/06 , C22C38/34 , C22C38/42 , C22C38/54 , C22C38/58 , C22C38/08 , C22C38/16 , C22C38/18 , C21D8/04 , C21D6/00
摘要: This invention relates to prevention of delayed cracking of metal alloys during drawing which may occur from hydrogen attack. The alloys find applications in parts or components used in vehicles, such as bodies in white, vehicular frames, chassis, or panels.
-
8.发明授权公开(公告)号:US10266930B2
公开(公告)日:2019-04-23
申请号:US14953930
申请日:2015-11-30
IPC分类号: C21D9/52 , C22C37/10 , C22C38/00 , C22C38/02 , C22C38/08 , C22C38/10 , C22C38/34 , C22C38/48 , C22C38/52 , C22C38/54 , C22C38/56 , C22C45/02
摘要: A method of forming an alloy composition including spinodal based glass matrix microconstituents. The method comprises melting an alloy composition comprising iron present in the range of 49 atomic percent (at %) to 65 at %, nickel present in the range of 10.0 at % to 16.5 at %, cobalt optionally present in the range of 0.1 at % to 12 at %, boron present in the range of 12.5 at % to 16.5 at %, silicon optionally present in the range of 0.1 at % to 8.0 at %, carbon optionally present in the range of 2 at % to 5 at %, chromium optionally present in the range of 2.5 at % to 13.35 at %, and niobium optionally present in the range of 1.5 at % to 2.5 at %, cooling the alloy composition at a rate of 103 K/s to 106 K/s.
-
公开(公告)号:US10233524B2
公开(公告)日:2019-03-19
申请号:US14864219
申请日:2015-09-24
发明人: Daniel James Branagan , Grant G. Justice , Andrew T. Ball , Jason K. Walleser , Brian E. Meacham , Kurtis Clark , Logan J. Tew , Scott T. Anderson , Scott Larish , Sheng Cheng , Taylor L. Giddens , Andrew E. Frerichs , Alla V. Sergueeva
IPC分类号: C21D9/46 , C22C38/58 , C22C38/34 , C22C38/54 , B22D11/00 , B22D11/041 , C21D6/00 , C21D8/02 , C22C38/02 , C22C38/04 , C22C38/08 , C22C38/16 , C22C38/20 , C22C38/32 , C22C38/36 , C22C38/38 , C22C38/42 , C22C38/56 , C22C38/00
摘要: This disclosure deals with steel alloys containing mixed microconstituent structure that has the ability to provide ductility at tensile strength levels at or above 900 MPa. More specifically, the alloys contain Fe, B, Si and Mn and indicate tensile strengths of 900 MPa to 1820 MPa and elongations of 2.5% to 76.0%.
-
公开(公告)号:US09493855B2
公开(公告)日:2016-11-15
申请号:US14188567
申请日:2014-02-24
发明人: Daniel James Branagan , Jason K. Walleser , Brian E. Meacham , Alla V. Sergueeva , Craig S. Parsons
CPC分类号: C21D8/005 , C22C38/004 , C22C38/02 , C22C38/04 , C22C38/08
摘要: Metallic alloys are disclosed containing Fe at 48.0 to 81.0 atomic percent, B at 2.0 to 8.0 atomic percent, Si at 4.0 to 14.0 atomic percent, and at least one or more of Cu, Mn or Ni, wherein the Cu is present at 0.1 to 6.0 atomic percent, Mn is present at 0.1 to 21.0 atomic percent and Ni is present at 0.1 to 16.0 atomic percent. The alloys may be heated at temperatures of 200° C. to 850° C. for a time period of up to 1 hour and upon cooling there is no eutectoid transformation. The alloys may then be formed into a selected shape.
摘要翻译: 公开了含有48.0〜81.0原子%的Fe,2.0〜8.0原子%的B,4.0〜14.0原子%的Si,Cu,Mn或Ni中的至少一种以上的金属的合金,其中Cu以0.1〜 6.0原子%,Mn为0.1〜21.0原子%,Ni为0.1〜16.0原子%。 合金可以在200℃至850℃的温度下加热一段时间至多1小时,并且在冷却时不存在共析转变。 然后可以将合金形成为选定的形状。
-
-
-
-
-
-
-
-
-
搜索结果
12 条记录 (耗时 0.045 秒)
