横晶层,transcrystalline,在线英语词典,英文翻译,专业英语

1) transcrystalline

横晶层

2) Transcrystallinity

横晶

Advance in the Study of Transcrystallinity inSemi-crystalline Polymer Composites;

半晶聚合物复合材料中的横晶

The PF nylon Ⅱ￣# can be nucleated and form transcrystallinity around these fibers,and the nucleating abilities of these fibers depend on their structures.

结果表明，Ｋｅｖｌａｒ－４９（ＫＦ）、碳纤维（ＣＦ）和玻璃纤维（ＧＦ）均可诱发ＰＦ尼龙Ⅱ~＃形成横晶；温度对纤维诱发ＰＦ尼龙界面结晶有一定影响。

3) transcrystallization

横晶

The mechanism and influence of transcrystallization in raw Kevlar fiber reinforced nylon6 copmposites(PA6/KF0)and modified Kevlar fiber reinforced nylon6 copmposites(PA6/KF1) were studied by PLM,so did the crystallization instance.

利用偏光显微镜研究了未改性K ev lar纤维(KF 0)和改性K ev lar纤维(KF 1)增强尼龙6复合材料的结晶情况,界面横晶的形成机理及影响因素。

The polarizing microscopy was used to investigate the effect of surface isocyanation of carbon fiber (CF) and crystallization temperature on the interface morphology (transcrystallization) of CF/PA6 composites.

利用偏光显微镜(PLM)研究了炭纤维(CF)表面异氰酸酯化及其阴离子接技尼龙6(PA6)对CF/PA6复合材料界面形态的影响,考察了纤维表面化学性质、结晶温度对CF/PA6复合材料界面形成横晶的影响。

It was discovered that the transcrystallization only appeared when the specimen was cooled down slowly and good adhesion existed between glass fiber and polypropylene.

通过对玻璃纤维与聚丙烯界面剪切强度的测量，以及对其界面结晶形态的观测，发现界面产生横晶的充分条件是界面存在较强的相互作用和样品的缓慢冷却。

4) transcrystalline

横晶

The nature of the fiber surface, crystalline temperature and the γ-radiation dose (R) of the PF nylon matrix(petroleum fermented nylon) were investigated as the couses of concerning the formation of the interface transcrystalline.

考察了纤维表面、结晶温度和基体ＰＦ尼龙Ⅱ＃（即石油发酵尼龙Ⅱ＃）的γ－辐照等因素对Ｋｅｖｌａｒ／ＰＦ尼龙界面形成横晶的影响。

5) interfase transcrystallization

界面横晶

补充资料：聚醚醚酮在碳纤维表面形成的界面横晶结构

聚醚醚酮在碳纤维表面形成的界面横晶结构

　　剔蓉{;策肇声登一二:
　　

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

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1) transcrystalline 横晶层 2) Transcrystallinity 横晶 1. Advance in the Study of Transcrystallinity inSemi-crystalline Polymer Composites; 半晶聚合物复合材料中的横晶 2. The PF nylon Ⅱ￣# can be nucleated and form transcrystallinity around these fibers,and the nucleating abilities of these fibers depend on their structures. 结果表明，Ｋｅｖｌａｒ－４９（ＫＦ）、碳纤维（ＣＦ）和玻璃纤维（ＧＦ）均可诱发ＰＦ尼龙Ⅱ~＃形成横晶；温度对纤维诱发ＰＦ尼龙界面结晶有一定影响。 3) transcrystallization 横晶 1. The mechanism and influence of transcrystallization in raw Kevlar fiber reinforced nylon6 copmposites(PA6/KF0)and modified Kevlar fiber reinforced nylon6 copmposites(PA6/KF1) were studied by PLM,so did the crystallization instance. 利用偏光显微镜研究了未改性K ev lar纤维(KF 0)和改性K ev lar纤维(KF 1)增强尼龙6复合材料的结晶情况,界面横晶的形成机理及影响因素。 2. The polarizing microscopy was used to investigate the effect of surface isocyanation of carbon fiber (CF) and crystallization temperature on the interface morphology (transcrystallization) of CF/PA6 composites. 利用偏光显微镜(PLM)研究了炭纤维(CF)表面异氰酸酯化及其阴离子接技尼龙6(PA6)对CF/PA6复合材料界面形态的影响,考察了纤维表面化学性质、结晶温度对CF/PA6复合材料界面形成横晶的影响。 3. It was discovered that the transcrystallization only appeared when the specimen was cooled down slowly and good adhesion existed between glass fiber and polypropylene. 通过对玻璃纤维与聚丙烯界面剪切强度的测量，以及对其界面结晶形态的观测，发现界面产生横晶的充分条件是界面存在较强的相互作用和样品的缓慢冷却。 4) transcrystalline 横晶 1. The nature of the fiber surface, crystalline temperature and the γ-radiation dose (R) of the PF nylon matrix(petroleum fermented nylon) were investigated as the couses of concerning the formation of the interface transcrystalline. 考察了纤维表面、结晶温度和基体ＰＦ尼龙Ⅱ＃（即石油发酵尼龙Ⅱ＃）的γ－辐照等因素对Ｋｅｖｌａｒ／ＰＦ尼龙界面形成横晶的影响。 5) interfase transcrystallization 界面横晶补充资料：聚醚醚酮在碳纤维表面形成的界面横晶结构聚醚醚酮在碳纤维表面形成的界面横晶结构　　剔蓉{;策肇声登一二: 　　说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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