原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2014年
6期
1127-1131
,共5页
郁朋%代秋声%邢晓曼%史晓佩
鬱朋%代鞦聲%邢曉曼%史曉珮
욱붕%대추성%형효만%사효패
大束流X射线管%蒙特卡罗%阳极设计
大束流X射線管%矇特卡囉%暘極設計
대속류X사선관%몽특잡라%양겁설계
large beam X-ray tube%Monte Carlo%anode design
采用蒙特卡罗软件和有限元分析软件分析了固定阳极X射线管中电子轰击阳极靶的能量沉积和热量传输过程,固定阳极由铜棒和钨片组成。研究了在不同形状、尺寸和占空比的电子束脉冲轰击下,阳极靶面不同厚度的钨片和相邻铜棒的温度上升过程。结果表明,钨片厚度存在最优值,但最优值与具体使用条件相关;在脉冲成像方式下,固定阳极靶能承受更强束流强度的轰击。因此,采用固定阳极靶方案,研制140 kV高压、10 mA以上电流、直径1 mm以下有效焦点的场发射阴极X射线管是可行的。
採用矇特卡囉軟件和有限元分析軟件分析瞭固定暘極X射線管中電子轟擊暘極靶的能量沉積和熱量傳輸過程,固定暘極由銅棒和鎢片組成。研究瞭在不同形狀、呎吋和佔空比的電子束脈遲轟擊下,暘極靶麵不同厚度的鎢片和相鄰銅棒的溫度上升過程。結果錶明,鎢片厚度存在最優值,但最優值與具體使用條件相關;在脈遲成像方式下,固定暘極靶能承受更彊束流彊度的轟擊。因此,採用固定暘極靶方案,研製140 kV高壓、10 mA以上電流、直徑1 mm以下有效焦點的場髮射陰極X射線管是可行的。
채용몽특잡라연건화유한원분석연건분석료고정양겁X사선관중전자굉격양겁파적능량침적화열량전수과정,고정양겁유동봉화오편조성。연구료재불동형상、척촌화점공비적전자속맥충굉격하,양겁파면불동후도적오편화상린동봉적온도상승과정。결과표명,오편후도존재최우치,단최우치여구체사용조건상관;재맥충성상방식하,고정양겁파능승수경강속류강도적굉격。인차,채용고정양겁파방안,연제140 kV고압、10 mA이상전류、직경1 mm이하유효초점적장발사음겁X사선관시가행적。
In this paper ,the Monte Carlo method and finite element analysis software were used to analyze electronic energy deposition and heat transfer process during the electron bombardment of the target in the fixed anode X-ray tube .The anode is made up of copper rod and tungsten film .With different duty cycles ,sizes and shapes ,the focal temperature rising process of tungsten film with different thicknesses and the adjacent copper was calculated .The result shows that there is an optimal value of tungsten film thickness depending on the working conditions .In pulse imaging mode ,the fixed anode is able to withstand large beam intensity .Therefore ,the development of a field emission cathode X-ray tube with maximum voltage of 140 kV ,maximum current above 10 mA , effective focal spot diameter below 1 mm is feasible .
