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1.发明授权公开(公告)号:US08467999B2
公开(公告)日:2013-06-18
申请号:US12951481
申请日:2010-11-22
申请人: Ding Liu , Shangbin Jiao , Yingmin Yi
发明人: Ding Liu , Shangbin Jiao , Yingmin Yi
CPC分类号: C30B15/305
摘要: A method of three-dimensional optimization design for an asymmetric cusp magnetic field in an MCZ single crystal furnace is disclosed. An optimization design for structural parameters of the magnetic field includes first establishing a three-dimensional magnetic model by using ANSYS software, varying parameters of the model, determining a span between upper and lower parts of coils, determining a number of transverse turns of the coils and the thickness of a shield. An optimization design for specification parameters of the coils of the magnetic field includes determining a relationship between heat and specification parameters of the coils and between heat transfer of the coils at their copper pipe walls and the specification parameters of the coils, analyzing heat absorbed by cooling water, establishing an optimization model of a system, and optimizing the specification parameters of the coils of the magnetic field using the ANSYS software.
摘要翻译: 公开了一种用于MCZ单晶炉中不对称尖点磁场的三维优化设计方法。 用于磁场结构参数的优化设计包括首先使用ANSYS软件建立三维磁场模型,改变模型参数,确定线圈上部和下部之间的距离,确定线圈的横向匝数 和屏蔽层的厚度。 磁场线圈的规格参数的优化设计包括确定线圈的热量和规格参数之间的关系,以及线圈在其铜管壁处的传热和线圈的规格参数之间的关系,分析由冷却吸收的热量 水,建立系统的优化模型,并使用ANSYS软件优化磁场线圈的规格参数。
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2.发明申请METHOD OF THREE-DIMENSIONAL OPTIMIZATION DESIGN FOR ASYMMETRIC CUSP MAGNETIC FIELD IN MCZ SINGLE CRYSTAL FURNACE 有权MCZ单晶玻璃中不对称CUSP磁场的三维优化设计方法公开(公告)号:US20120035893A1
公开(公告)日:2012-02-09
申请号:US12951481
申请日:2010-11-22
申请人: Ding LIU , Shangbin Jiao , Yingmin Yi
发明人: Ding LIU , Shangbin Jiao , Yingmin Yi
IPC分类号: G06F17/10
CPC分类号: C30B15/305
摘要: The present invention discloses a method of three-dimensional optimization design for an asymmetric cusp magnetic field in an MCZ single crystal furnace. An optimization design for structural parameters of the magnetic field comprises first establishing a three-dimensional magnetic model by using an Ansys numerical analysis software; and varying parameters of the model, determining the span between the upper and lower parts of coils, the number of transverse turns of coils and the thickness of the shield based on a set magnetic induction intensity of the magnetic field, and determining the numbers of longitudinal layers of coils in the upper and lower parts of the magnetic field. An optimization design for specification parameters of the coils of the magnetic field comprises first determining a relationship between heat and specification parameters of the coils, determining a relationship between heat transfer of the coils at the copper pipe walls and the specification parameters of the coils, analyzing the heat absorbed by cooling water, establishing an optimization model of a system, and optimizing the specification parameters of the coils of the magnetic field by using the Ansys software. According the method of the present invention, the influence of the structural variation of the magnetic field on the variation of distribution and intensity of the magnetic field is intuitively revealed in three-dimension in view of all aspects, thereby reducing develop period and experiment cost on the cusp magnetic field, and increasing the efficiency of generating magnetic induction intensity by the magnetic field.
摘要翻译: 本发明公开了一种MCZ单晶炉不对称尖点磁场三维优化设计方法。 磁场结构参数的优化设计包括首先使用Ansys数值分析软件建立三维磁场模型; 以及模型的变化参数,基于磁场的设定磁感应强度确定线圈的上部和下部之间的跨度,线圈的横向匝数和屏蔽的厚度,以及确定纵向的数量 在磁场的上部和下部的线圈层。 磁场线圈的规格参数的优化设计包括首先确定线圈的热量和规格参数之间的关系,确定铜管壁上线圈的传热与线圈的规格参数之间的关系,分析 冷却水吸收的热量,建立系统的优化模型,并通过Ansys软件优化磁场线圈的规格参数。 根据本发明的方法,考虑到所有方面,磁场的结构变化对磁场分布和强度变化的影响在三维方面被直观地揭示,从而减少了开发周期和实验成本 尖点磁场,并且通过磁场增加产生磁感应强度的效率。
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