High heat flux performance of brazed tungsten macro-brush test mock-up for divertors

Patil Y.; Khirwadkar S.S.; Krishnan D.; Patel A.; Tripathi S.; Singh K.P.; Belsare S.M.

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High heat flux performance of brazed tungsten macro-brush test mock-up for divertors

机译：偏滤器的钎焊钨宏观刷试验模型的高热通量性能

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Plasma facing components (PFCs) of divertor will be exposed to steady state and transient heat loads up to 20 MW/m~2, during operation of ITER-like plasma fusion device. The critical task in fusion research is to design, fabricate and test of PFCs. To withstand high heat loads, PFCs are designed and fabricated in flat tile, mono-block type geometries using tungsten as plasma facing material and CuCrZr alloy is used as a heat sink. These fabricated mock-ups are tested under thermal cyclic heat loads using intense electron beam in pulsed mode. Tungsten macro-brush type of mock-up has been developed by vacuum furnace brazing route. Mock-up was tested to the absorbed heat flux in the range of 0.5-9 MW/m~2. Simulation of high heat flux (HHF) test under steady state and cyclic heat loads has been done using ANSYS12 finite element analysis (FEA) software. HHF tests have been successfully performed on the tungsten mock-up.

机译：在类似ITER的等离子聚变设备运行期间，偏滤器的等离子面对部件（PFC）会处于稳定状态，瞬态热负荷高达20 MW / m〜2。聚变研究的关键任务是设计，制造和测试PFC。为了承受高的热负荷，PFC采用扁平砖进行设计和制造，采用钨作为等离子饰面材料并且采用CuCrZr合金作为散热器的整体结构。这些制造的模型在热循环热负荷下使用强电子束以脉冲模式进行了测试。钨宏刷型样机是通过真空炉钎焊工艺开发的。测试了样机的吸收热通量范围为0.5-9 MW / m〜2。使用ANSYS12有限元分析（FEA）软件对稳态和循环热负荷下的高热通量（HHF）测试进行了仿真。已经在钨模型上成功进行了HHF测试。

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2013年第3期|共6页
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Patil Y.; Khirwadkar S.S.; Krishnan D.; Patel A.; Tripathi S.; Singh K.P.; Belsare S.M.;
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High heat flux performance of brazed tungsten macro-brush test mock-up for divertors

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