EXPERIMENTAL DESIGN TO STUDY THE MECHANICAL PERFORMANCE OF IRRADIATED ACRYLONITRILE BUTADIENE STYRENE FABRICATED VIA FUSED FILAMENT FABRICATION

机译：试验设计研究熔丝丝制造制造辐照丙烯腈丁二烯苯乙烯的力学性能

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Polymers are widely used in nuclear power plant(NPP) components and in the storage of radioactivematerials. Radiation induced polymer degradation is aknown challenge to the lifetime of components. Additivemanufacturing (AM) provides a unique capability to costeffectively replace used parts to key NPP components,thereby extending the life of commercial NPP and reducingmaintenance costs and reactor down time. The study aimsto obtain an understanding of the proton radiation impacton the mechanical performance of fused filamentfabrication (FF) acrylonitrile butadiene styrene (FF-ABS).The study addresses the effect of proton radiation damageat 40 MeV and high-level proton doses throughexperimental evaluation of both mechanical performanceand material characteristic changes. Preliminary resultsshow that pristine material conforms to published researchon FF-ABS. Additionally, there is no evidence oftemperature induced crosslinking or chain scission due tothe 3D printing process.

机译：聚合物广泛用于核电站（NPP）组件和放射性的存储材料。辐射诱导的聚合物降解是a已知对组件寿命的挑战。添加剂制造业（AM）为成本提供了独特的能力有效地将使用的零件替换为密钥NPP组件，从而扩展了商业NPP的寿命和减少维护成本和反应堆停机时间。研究旨在了解质子辐射影响的理解融合丝的力学性能制造（FF）丙烯腈丁二烯苯乙烯（FF-ABS）。该研究解决了质子辐射损伤的效果在40 mev和高水平的质子剂量通过机械性能的实验评价和材料特征变化。初步结果显示原始材料符合公布的研究关于FF-ABS。此外，没有证据温度诱导的交联或链群引起的3D打印过程。

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《International Conference on Environmental Degradation of Materials in Nuclear Power Systems - Water Reactors》|2019年|1 CD-ROM|共10页
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Arielle J. Miller; Grant Warner; Dharmaraj Raghavan;
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中图分类核反应堆工程;
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4. EXPERIMENTAL DESIGN TO STUDY THE MECHANICAL PERFORMANCE OF IRRADIATED ACRYLONITRILE BUTADIENE STYRENE FABRICATED VIA FUSED FILAMENT FABRICATION [C] . Arielle J. Miller, Grant Warner, Dharmaraj Raghavan International Conference on Environmental Degradation of Materials in Nuclear Power Systems - Water Reactors . 2019

机译：试验设计研究熔丝丝制造制造辐照丙烯腈丁二烯苯乙烯的力学性能
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EXPERIMENTAL DESIGN TO STUDY THE MECHANICAL PERFORMANCE OF IRRADIATED ACRYLONITRILE BUTADIENE STYRENE FABRICATED VIA FUSED FILAMENT FABRICATION

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