胞状结构的出现大大提高了钢的强度。
经过长期进化,生物质已经形成了复杂的分级胞状结构。
Biomass exhibits complex hierarchical cellular structures due to the long-term evolution and development.
实验表明:材料挤压强化主要是形成位错密度很高的胞状结构。
The experimental results show that the hydrostatic extrusion strengthening results from high dislocation density.
氮化钛膜层表面呈胞状结构生长,膜层结构致密,未见显微孔洞和裂纹的存在。
The TiN surface film grow as cell-shaped structure and the film microstructure is compact.
结果表明,在构造胞状结构过程中,有机添加剂起到了粉末流动载体及对坯件的保形作用。
The results indicate that the chosen additive is the carrier of powder and has a good effect of holding shape in co-extrusion process.
复合材料界面结构由芯材扩散层、激冷凝固层、方向性生长层和胞状晶粒层组成。
The interface structure of composite consists of core material diffusion layer, chilling solidified layer, directional growth layer, and cellular granular layer.
研究表明枝状胞体模型能较为真实的反映三维四向编织复合材料的结构构形;
The investigation shows that FHDBC can reflect the real structure of 3 D braided fiber composites.
神经分化形态表现为瘤细胞胞质和胞质突起内可见散在或簇状分布的致密核心颗粒,并形成突触样结构。
The ultrastructural features of neural differentiation included scattered or cluster distribution of dense core granules in cytoplasm and cytoplasmic processes;
神经分化形态表现为瘤细胞胞质和胞质突起内可见散在或簇状分布的致密核心颗粒,并形成突触样结构。
The ultrastructural features of neural differentiation included scattered or cluster distribution of dense core granules in cytoplasm and cytoplasmic processes;
应用推荐