总结了近十年来岩石扩散蠕变显微构造鉴别特征、研究方法的最新进展。
The newest development of microstructure features and observation and research methods of diffusion creep of rocks in the past ten years are briefly summarized.
钛合金的蠕变行为是非常复杂的。通常蠕变行为可以分为低温蠕变、晶界滑移蠕变、扩散蠕变和位错蠕变等。
The creep behavior of ti alloys is complicated and can usually be divided into low temperature creep, grain boundary slip creep, diffusion creep and dislocation creep, so on.
该合金的蠕变由晶格自扩散引起的位错攀移所控制。
The creep deformation is controlled by dislocation climb resulting from lattice self-diffusion.
稳态蠕变速率主要由锌的点阵扩散和位错的攀移所控制,品界滑移对蠕变也有贡献。
The compressive creep rate in the alloy was mainly controlled by the lattice diffusion of zinc and dislocation limb, and the grain boundary sliding contributed for it in some degree.
因此,可以认为多晶纯铜在较高温度下的滞弹性蠕变机构与晶粒间界自扩散机构相似。
The mechanism of anelastic creep of polycrystalline copper at higher temperatures may thus be considered to be similar to...
因此,可以认为多晶纯铜在较高温度下的滞弹性蠕变机构与晶粒间界自扩散机构相似。
The mechanism of anelastic creep of polycrystalline copper at higher temperatures may thus be considered to be simi…
因此,可以认为多晶纯铜在较高温度下的滞弹性蠕变机构与晶粒间界自扩散机构相似。
The mechanism of anelastic creep of polycrystalline copper at higher temperatures may thus be considered tob...
因此,可以认为多晶纯铜在较高温度下的滞弹性蠕变机构与晶粒间界自扩散机构相似。
The mechanism of anelastic creep of polycrystalline copper at higher temperatures may thus be con...
因此,可以认为多晶纯铜在较高温度下的滞弹性蠕变机构与晶粒间界自扩散机构相似。
The mechanism of anelastic creep of polycrystalline copper at higher temperatures may thus be con...
应用推荐