作者:BUYeQiang,WANGPeng,NIEAnMin,WANGHongTao 单位:CenterforX-mechanics,ZhejiangUniversity;InstituteofAppliedMechanics,ZhejiangUniversity;MaterialsGenomeInstitute,ShanghaiUniversity;CenterforHighPressureScience,StateKeyLaboratoryofMetastableMaterialsScienceandTechnology,YanshanUniversity 本文刊于: 《Science China(Technological Sciences)》 2021年第01期
关键词:
diamond plasticity dislocation in-situtrKeywords
diamond, plasticity, dislocation, in-situ transmission electron microscopy
全文下载:需积分3点。
摘要
In spite of extremely high strength and hardness, the property of brittleness is tightly linked to diamond. In the deformation of diamond at room temperature, the plasticity of the diamond is normally considered hard to occur because of the domination of catastrophic brittle fracture. Herein, we employed in-situ transmission electron microscopy to reveal the diamond roomtemperature plastic behavior, and compared it with a recent report(Adv. Mater. 2020, 1906458) on transformation-induced room-temperature plasticity of diamond nanopillars. Our present in-situ uniaxial compression tests in sub-micron-sized diamond pillars indicate that the plasticity in diamond is carried out by dislocations slipping instead of phase transformation and the initiation of plasticity highly depends on the stress state. On the other hand, we noted that a high proportion of amorphous surface layer in the diamond pillars with a diameter of less than 20 nm may be a significant factor leading to the plasticity.
本文地址:www.fabiao.net/content-24-2715-1.html
本文地址:www.fabiao.net/content-24-2715-1.html
上一篇:
下一篇:基于GA-ELM的稀土混合溶液多组分含量预测
