microfibril

microfibril

1. microfibril orientat且on during in vitro cotton fiber development. J of Cell Science, 1992, 101: 561-577

刘继华，尹承情，于风英，孙清荣，王永民，贾景农，边栋材，陈学留.棉花纤维强度的形成机理与

2. elementary microfibril

初级微原纤

3. The Analysis of Wood Microfibril Angle by Near Infrared Spectroscopy and X-Ray Diffractometry

利用近红外光谱和X射线衍射技术分析木材微纤丝角

4. STUDY OF MICROFIBRIL ANGLES IN REACTION WOOD

应力木纤丝角的研究

5. The microfibril spiral angle increased in the upper level fruit branches and the outer fruit nodes.

微原纤螺旋角随果枝位变化自下而上略有增加 ,随果节位变化由里向外略有增加 ;

6. microfibril angle

微纤丝角

7. Keywords Microfibril angle（MFA）;Near infrared（NIR） spectroscopy;X-ray diffractometry;

微纤丝角;近红外光谱;X射线衍射;

8. microfibril system

微纤维体系

9. X-ray diffraction was used to study the variation of Microfibril Angle (MFA) in moso bamboo.

摘要应用X射线衍射技术对毛竹微纤丝角的变异规律进行了系统的研究。

10. Abstract: In the present paper, near infrared （NIR） spectroscopy and X-ray diffraetometry were used to rapidly predict the microfibril angle （MFA）.

文章摘要: 利用近红外光谱和x射线衍射法对木材的微纤丝角进行了快速预测。

11. The result revealed that the microfibril angle of earlywood and latewood had a high significant difference among clones.

日本落叶松微纤丝角的径向变异规律为：在髓心处最大，以后逐渐减小。

12. Study on Genetic Variation of Tracheid Microfibril Angle of Japanese Larch Clones

日本落叶松无性系微纤丝角遗传变异的研究

13. The broad sense heritability estimates of clones were 0.7674 and 0.8043, indicating the microfibril angle of earlywood and latewood was under strong genetic control.

早材和晚材的微纤丝角受中到强度遗传控制，广义遗传力分别为0.7674、0.8043。

14. Measurement Methods and Development of Wood Microfibril Angle

木材微纤丝角的测定方法及其进展

15. Genetic Variation on Tracheid Microfibril Angle of Chinese Fir Clones

杉木无性系微纤丝角遗传变异的研究

16. chromosome microfibril

染色体微原纤维

17. Regulation of plant hormone on the layout of microtubule and cellulose microfibril

植物激素对微管和纤维素微纤丝排向的调节

18. Variation of Wood Fiber Characteristics, Microfibril Angle and Basic Density of Betula platyphylla in Natural Populations

白桦天然种群木材纤维性状、微纤丝角和基本密度的变异

19. cellulose microfibril

纤维素微纤丝

20. The microfibrils in the zonule became sparse and the microfibril...

结论:在近视眼的病理改变中也伴随着悬韧带结构的改变。

21. wool microfibril

羊毛微纤维

22. collagen microfibril

胶原微纤维

23. It was proved that the near infrared (NIR) spectroscopic technique could be used to rapidly and accurately predict the wood microfibril angle.

证明了近红外光谱分析技术可以用于快速准确地预测木材的微纤丝角。

24. Keywords near infrared spectroscopy;wood;microfibril angle;

近红外光谱分析;木材;微纤丝角;

25. Keywords Craze;Crazing;Microfibril;Entanglement;Disentanglement;

银纹;银纹化;微纤;缠结;解缠作用;

26. With the increasing of temperature, the microfibril which had caused by the weak force of macromolecule remained no more, but the fine cervical and microporous part appeared.

随着温度的升高，纤维在断裂处不再出现因大分子之间作用力损失而产生的微原纤现象，在拉伸断裂处出现了细颈和微孔。

27. Keywords Masson pine;tracheid;morphology;micromechanics;microfibril angle;Zero-span tensile test;Nanoindentation;

马尾松;管胞;形态;微力学;微纤丝角;零距拉伸;纳米压痕;