另一类是由作者发明的原位混杂复合材料。
The other group is in - situ hybrid composites, invented by the author.
另外,也对部分零膨胀单向混杂复合材料的铺层结构进行了预测。
Moreover, some ply patterns of zero thermal expansion of unidirectional hybrid composites are predicted.
高载荷下混杂复合材料的储能模量仍较好地符合“复合梁理论”。
The storage modulus of the hybrid composites under high load approximately conforms to the Composite Beam Theory.
给出了混杂复合材料混杂效应系数的估算公式,并进行了实验验证。
An estimated formula for the coefficient of hybrid effect of hybrid composites is presented, and validated by experiments.
由于混杂复合材料组分多、结构复杂,因此预测其热膨胀系数难度较大。
The components of hybrid composites are quite complicated and diverse. Therefore it 's difficult to predict its thermal expansion coefficient.
本文推导了单向混杂复合材料热膨胀系数的理论估算公式,并进行了实验验证。
In this paper, the estimate formula of the coefficient of thermal expansin (CTE) of unidirection hybrid composites is presented, and validated by experiments.
基于此模型,分析了受拉伸的层内混杂复合材料中某些纤维断裂后的应力重分布。
Based on the model, the stress redistributions due to the failure of some fibers in an intraply hybrid composite under tension are analyzed.
结果表明:对于一定的混杂复合材料,弯曲强度随着某一位置层错数目的减少而增加;
The result shows that, for a definite hybrid composite, the bending strength increases as the numbers of the plies drop-off at a station reduce.
本文以NOL环研究了F- 12/碳纤维混杂复合材料的拉伸性能和剪切性能。
The tensile and shear properties of F-12 aramid fiber and carbon fiber intem1y hybrid NOL ring composites are presented in this paper.
研究了单向混杂复合材料热膨胀系数随混杂比、混杂界面数及铺层顺序等参数变化的规律。
The variation of CTE values of the unidirectional hybrid composites with hybrid ratio, hybrid interfaces and ply order is studied.
结果表明,该混杂复合材料的纵向拉伸强度均低于混合定律的预测值,表现出明显的混杂负效应。
The results showed that the longitudinal tensile strength of hybrid composites were lower than the value evaluated by rule of mixture and showed negative hybrid effect.
研究了铺层参数及纤维表面处理对芳纶纤维、碳纤维混杂增强环氧复合材料(简称混杂复合材料)纵向拉伸性能的影响。
The effect of stacking parameters and fiber surface treatment on the longitudinal tensile properties of F-12/CF hybrid epoxy composites had been studied.
以形状记忆合金体积含量为主要设计变量,分析了丝状、带状及板状形状记忆合金埋入复合材料层合板后,这种混杂复合材料力学性能的变化。
When the main design parameter has been choused the SMA volume fraction and the SMA wire, ribbon, and plate has been embedded, the performance of SMAHC changes.
本文对不同铺层方式的碳纤维(CF)和高强聚乙烯纤维(UHMWPEF)混杂复合材料的力学性能进行测试,同时对UHMWPEF表面处理前后的混杂复合材料性能进行了比较。
In this paper the mechanical properties of the different hybrid modes and UHMWPEF surface modification for CF/UHMWPEF composites are investigated through tests and comparison.
讨论了混杂纤维复合材料体积含量和质量含量的定义和作用;
The definition and function of the volume fraction and mass fraction for the hybrid fiber composite material was approached.
由于单一纤维复合材料是混杂纤维复合材料的特例,文中给出的计算公式同样适用于单一纤维复合材料。
Because the single fiber composite material is the special case of the hybrid fiber composite material, the calculation formulae in this paper can also apply to the single fiber composite material.
针对双频副反射器的结构特点和技术要求,研究了混杂纤维复合材料的性能和成型工艺。
According to structural features and technical requirements of the dual-frequency subreflector, the performance and shaping process technology of hybrid fibre composite are studied.
本文研究了混杂纤维复合材料参数设计与材料力学性能的关系。
The relationship between parameter design and mechanical properties of hybrid fiber composite materials is investigated.
研究了单一陶瓷纤维、单一尼龙纤维及陶瓷尼龙混杂纤维水泥基复合材料的力学性能。
The interface properties of nylon fiber-rubber composites were studied by using single fiber pull-out method.
利用陶瓷、有机、金属纤维混杂增强酚醛树脂,研制开发了一种汽车用新型树脂基制动复合材料。
A kind of frictional composites for vehicle brake is developed with better tribological properties based on phenolic resin with ceramic, organic and metallic fibers compound reinforcement.
本研究广泛吸取国内外复合材料司机室先进设计、制造经验,将复合材料司机室设计成混杂结构形式。
Based on the advanced design and manufacture experience of the ICDC at home and abroad, the ICDC in this paper was designed as a combined structure.
结果表明,玻璃、碳及其混杂纤维复合材料的平面剪切应力-应变曲线均具有非线性特征;在脆性基体中选用混杂结构,其复合材料的剪切性能具有正的混杂效应。
The results shows that the stress-strain curves of the composites were nonlinear and the hybrid fiber composites had a positive hybrid effect when the brittle matrix was used.
利用新型广义自洽模型推导混杂纤维复合材料有效模量的预测公式。
By using an improved generalized self-consistent model, a group of equations to predict effective modulus of multiphase fiber composites was obtained.
利用新型广义自洽模型推导混杂纤维复合材料有效模量的预测公式。
By using an improved generalized self-consistent model, a group of equations to predict effective modulus of multiphase fiber composites was obtained.
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