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1.发明申请Method of producing high strength, high stiffness and high ductility titanium alloys 有权生产高强度,高刚度和高延展性钛合金的方法公开(公告)号:US20070286761A1
公开(公告)日:2007-12-13
申请号:US11448160
申请日:2006-06-07
申请人: Daniel B. Miracle , Seshacharyulu Tamirisakandala , Radhakrishna B. Bhat , Dale J. McEldowney , Jerry L. Fields , William M. Hanusiak , Rob L. Grabow , C. Fred Yolton , Eric S. Bono
发明人: Daniel B. Miracle , Seshacharyulu Tamirisakandala , Radhakrishna B. Bhat , Dale J. McEldowney , Jerry L. Fields , William M. Hanusiak , Rob L. Grabow , C. Fred Yolton , Eric S. Bono
IPC分类号: C22F1/18
摘要: A method of producing a high strength, high stiffness and high ductility titanium alloy, comprising combining the titanium alloy with boron so that the boron concentration in the boron-modified titanium alloy does not exceed the eutectic limit. The carbon concentration of the boron-modified titanium alloy is maintained below a predetermined limit to avoid embrittlement. The boron-modified alloy is heated to a temperature above the beta transus temperature to eliminate any supersaturated excess boron. The boron-modified titanium alloy is deformed at a speed slow enough to prevent microstructural damage and reduced ductility.
摘要翻译: 一种制造高强度,高刚度和高延展性钛合金的方法,包括将钛合金与硼组合,使得硼改性钛合金中的硼浓度不超过共晶极限。 硼改性钛合金的碳浓度保持在预定极限以下,以避免脆化。 将硼改性的合金加热到高于β转变温度的温度以消除任何过饱和过量的硼。 硼改性钛合金以足够慢的速度变形,以防止微结构损伤和延展性降低。
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2.发明申请TITANIUM ALLOY MICROSTRUCTURAL REFINEMENT METHOD AND HIGH TEMPERATURE-HIGH STRAIN RATE SUPERPLASTIC FORMING OF TITANIUM ALLOYS 审中-公开钛合金微结构改性方法和钛合金的高温应变速率超塑性成形公开(公告)号:US20120180913A1
公开(公告)日:2012-07-19
申请号:US13344818
申请日:2012-01-06
IPC分类号: C22F1/18
CPC分类号: C22C14/00 , C22C1/0458 , C22F1/183
摘要: A method for refining the microstructure of titanium alloys in a single thermomechanical processing step, wherein the titanium alloy comprises boron. In some embodiments, the method comprises the steps of first adding boron to the titanium alloy then subjecting the boron-containing titanium alloy to a thermomechanical processing step. Also provided is a method for achieving superplasticity in titanium alloys comprising the steps of selecting a boron-containing titanium alloy, determining the temperature and strain rate necessary to achieve beta superplasticity, and applying sufficient temperature and strain rate to the boron-containing titanium alloy to deform the alloy to the desired shape. Also provided methods of forming titanium alloy parts and the parts prepared by these methods.
摘要翻译: 一种用于在单个热机械加工步骤中精炼钛合金的微结构的方法,其中钛合金包含硼。 在一些实施方案中,该方法包括以下步骤:首先向钛合金中加入硼,然后使含硼钛合金进行热机械加工步骤。 还提供了一种在钛合金中实现超塑性的方法,包括选择含硼钛合金,确定实现β超塑性所需的温度和应变速率以及向含硼钛合金施加足够的温度和应变速率的步骤 使合金变形成所需的形状。 还提供了形成钛合金部件的方法和通过这些方法制备的部件。
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3.发明申请公开(公告)号:US20110146853A1
公开(公告)日:2011-06-23
申请号:US10581998
申请日:2004-12-13
IPC分类号: C22C14/00
CPC分类号: C22C14/00 , C22C1/0458 , C22F1/183
摘要: A method for refining the microstructure of titanium alloys in a single thermomechanical processing step, wherein the titanium alloy comprises boron. In some embodiments, the method comprises the steps of first adding boron to the titanium alloy then subjecting the boron-containing titanium alloy to a thermomechanical processing step. Also provided is a method for achieving superplasticity in titanium alloys comprising the steps of selecting a boron-containing titanium alloy, determining the temperature and strain rate necessary to achieve beta superplasticity, and applying sufficient temperature and strain rate to the boron-containing titanium alloy to deform the alloy to the desired shape. Also provided methods of forming titanium alloy parts and the parts prepared by these methods.
摘要翻译: 一种用于在单个热机械加工步骤中精炼钛合金的微结构的方法,其中钛合金包含硼。 在一些实施方案中,该方法包括以下步骤:首先向钛合金中加入硼,然后使含硼钛合金进行热机械加工步骤。 还提供了一种在钛合金中实现超塑性的方法,包括选择含硼钛合金,确定实现β超塑性所需的温度和应变速率以及向含硼钛合金施加足够的温度和应变速率的步骤 使合金变形成所需的形状。 还提供了形成钛合金部件的方法和通过这些方法制备的部件。
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4.发明授权Method of producing high strength, high stiffness and high ductility titanium alloys 有权生产高强度,高刚度和高延展性钛合金的方法公开(公告)号:US07879286B2
公开(公告)日:2011-02-01
申请号:US11448160
申请日:2006-06-07
申请人: Daniel B. Miracle , Seshacharyulu Tamirisakandala , Radhakrishna B. Bhat , Dale J. McEldowney , Jerry L. Fields , William M. Hanusiak , Rob L. Grabow , C. Fred Yolton , Eric S. Bono
发明人: Daniel B. Miracle , Seshacharyulu Tamirisakandala , Radhakrishna B. Bhat , Dale J. McEldowney , Jerry L. Fields , William M. Hanusiak , Rob L. Grabow , C. Fred Yolton , Eric S. Bono
IPC分类号: C22F1/18
摘要: A method of producing a high strength, high stiffness and high ductility titanium alloy, comprising combining the titanium alloy with boron so that the boron concentration in the boron-modified titanium alloy does not exceed the eutectic limit. The carbon concentration of the boron-modified titanium alloy is maintained below a predetermined limit to avoid embrittlement. The boron-modified alloy is heated to a temperature above the beta transus temperature to eliminate any supersaturated excess boron. The boron-modified titanium alloy is deformed at a speed slow enough to prevent microstructural damage and reduced ductility.
摘要翻译: 一种制造高强度,高刚度和高延展性钛合金的方法,包括将钛合金与硼组合,使得硼改性钛合金中的硼浓度不超过共晶极限。 硼改性钛合金的碳浓度保持在预定极限以下,以避免脆化。 将硼改性的合金加热到高于β转变温度的温度以消除任何过饱和过量的硼。 硼改性钛合金以足够慢的速度变形,以防止显微结构损伤和延展性降低。
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5.发明授权公开(公告)号:US08128764B2
公开(公告)日:2012-03-06
申请号:US10581998
申请日:2004-12-13
CPC分类号: C22C14/00 , C22C1/0458 , C22F1/183
摘要: A method for refining the microstructure of titanium alloys in a single thermomechanical processing step, wherein the titanium alloy comprises boron. In some embodiments, the method comprises the steps of first adding boron to the titanium alloy then subjecting the boron-containing titanium alloy to a thermomechanical processing step. Also provided is a method for achieving superplasticity in titanium alloys comprising the steps of selecting a boron-containing titanium alloy, determining the temperature and strain rate necessary to achieve beta superplasticity, and applying sufficient temperature and strain rate to the boron-containing titanium alloy to deform the alloy to the desired shape. Also provided methods of forming titanium alloy parts and the parts prepared by these methods.
摘要翻译: 一种用于在单个热机械加工步骤中精炼钛合金的微结构的方法,其中钛合金包含硼。 在一些实施方案中,该方法包括以下步骤:首先向钛合金中加入硼,然后使含硼钛合金进行热机械加工步骤。 还提供了一种在钛合金中实现超塑性的方法,包括选择含硼钛合金,确定实现β超塑性所需的温度和应变速率以及向含硼钛合金施加足够的温度和应变速率的步骤 使合金变形成所需的形状。 还提供了形成钛合金部件的方法和通过这些方法制备的部件。
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