公开(公告)号：US20170076824A1

公开(公告)日：2017-03-16

申请号：US15122761

申请日：2015-01-19

Applicant: Beijing University of Technology

Inventor： Bo Wang ,  Dezhi Hu ,  Dong Ma ,  Guanghong LV

IPC: G21B1/13

CPC classification number: G21B1/13 ,  G21Y2002/101 ,  G21Y2002/102 ,  Y02E30/128

Abstract: A method for improving resistance of a fusion reactor inner wall to plasma irradiation by using lamination structure comprises: making a material for facing plasma into multiple metal sheets, laminating the multiple metal sheets together according to a direction perpendicular to a wall surface, and combining the laminated multiple metal sheets with a copper substrate. The method relates to the field of nuclear applications, and is applicable to a plasma-facing surface on an inner wall of an apparatus for conducting a fusion reaction by using hydrogen isotopes. Not only does the method reduce aggregation of hydrogen, helium, and isotopes thereof, and the like, under a surface layer of a tungsten-based material, greatly reducing a blistering phenomenon on a surface thereof, but also reduces thermal fatigue cracking damages.

Abstract translation: 一种通过使用层压结构改善聚变反应器内壁对等离子体照射的电阻的方法包括：将用于将等离子体面对的材料制成多个金属片，根据垂直于壁表面的方向将多个金属片层叠在一起， 用铜基板层叠多个金属片。 该方法涉及核应用领域，并且适用于通过使用氢同位素进行聚变反应的装置的内壁上的等离子体面向表面。 在钨基材料的表面层下，该方法不仅可以降低氢，氦和同位素的聚集，大大降低其表面上的起泡现象，而且减少热疲劳裂纹损伤。

公开(公告)号：US10102928B2

公开(公告)日：2018-10-16

申请号：US15122761

申请日：2015-01-19

Applicant: Beijing University of Technology

Inventor： Bo Wang ,  Dezhi Hu ,  Dong Ma ,  Guanghong Lu

IPC: G21B1/13

Abstract: A method for improving resistance of a fusion reactor inner wall to plasma irradiation by using lamination structure comprises: making a material for facing plasma into multiple metal sheets, laminating the multiple metal sheets together according to a direction perpendicular to a wall surface, and combining the laminated multiple metal sheets with a copper substrate. The method relates to the field of nuclear applications, and is applicable to a plasma-facing surface on an inner wall of an apparatus for conducting a fusion reaction by using hydrogen isotopes. Not only does the method reduce aggregation of hydrogen, helium, and isotopes thereof, and the like, under a surface layer of a tungsten-based material, greatly reducing a blistering phenomenon on a surface thereof, but also reduces thermal fatigue cracking damages.