1) Bundle Fiber
束纤维
1.
Discussion of The Relation Between Single Fiber Strength and Bundle Fiber Strength;
单纤维强力与束纤维强力关系的探讨
2.
To clarify the distribution pattern of tensile strength of kenaf phloem bundle fiber,the tensile strengths of phloem fiber which separated from each layer in various heights of kenaf plants with different sizes were measured.
为探讨红麻韧皮部束纤维抗拉强度的分布规律,将红麻大小植株不同高度、不同层次的韧皮部束纤维进行分离并测定抗拉强度。
3.
Kenaf phloem bundle fiber layers were separated by five treatments, and the diameter (d) and maximum tensile force (Fmax) of bundle fiber of each layer were measured.
通过5种处理方法分离红麻韧皮部束纤维层,测定各层束纤维的直径d及其所能承受的最大拉力Fmax,计算束纤维的极限抗拉强度σ。
2) fiber bundle
纤维束
1.
Absorption properties to liquid water of bamboo fiber bundle and regenerated bamboo fiber bundle;
竹原纤维与竹浆纤维束吸水性能比较
2.
New Characteristic Indexes of Stretching Curve of Bicomponent Fiber Bundle and Its Application Research;
双组分纤维束拉伸曲线特征指标及应用研究
3) single fiber-bundles
单束纤维
4) fiber-bundle
纤维束
1.
In this experiment the fiber-bundle is used as a filter medium for direct filtration of raw water under micro flocculation .
采用纤维束滤料对微絮凝的中浊度原水进行了直接过滤的试验研究。
2.
Based on the shear-lag theory,a hexagonal model of fiber-bundles is first used to analyze the stress concentration of fibers in fiber-bundles at a low temperature.
基于剪滞理论 ,采用一种六角形纤维束模型 ,以玻璃纤维和碳纤维束为例 ,计算了在低温下一纤维束内的纤维应力集中因子 ,并将此结果与常温下的计算结果进行比较 ,证实了随着温度的降低 ,玻璃纤维和碳纤维束中的应力集中会有不同程度改变的结论 。
5) T300 fiber
T300纤维束
1.
Tensile mechanical behavior of T300 fiber bundles and M40J fiber bundles have been studied in the strain rate range from 0.
试验结果表明,T300纤维束和M40纤维束的弹性模量、拉伸强度以及失稳应变在上述应变率范围内均未发生明显变化,可以认为是一种应变率无关的材料。
6) M40J fiber
M40J纤维束
补充资料:碳(石墨)纤维增强体(见碳纤维、石墨纤维)
碳(石墨)纤维增强体(见碳纤维、石墨纤维)
earbon(graPhite)fibrereinforeements
,、、里z耽维增强体earbon(graphi现inforcements用于复合材料中承受负荷,田的磷纤始知五史纤俯亡e)fibre起增强作
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条