这种界面冶金结合层并不会引起脆性断裂,具有与基材相同的韧性断口形貌。
The interface layer of metallurgical bonding will not induce brittle fracture and will share the ductile SEM fractographs of the substrate.
结果表明:该复合材料层间拉伸强度较少受到铺层取向的影响,而由纤维与基体的界面结合强度所控制。
It was concluded that the interlaminar tensile strength of the composite is dominated by the bonding strength of the interface between fiber and matrix, not by lay-up orientation.
研究结果表明,镍基钎焊层通过扩散形成界面,实现了完全的冶金结合。
The results show that the interface between nickel solder and steel is metallurgical joint by diffusion.
通过化学镀可在碳纳米管表面镀上一层连续的银镀层,以增强碳纳米管与金属基体的界面结合力。
Through electroless plating carbon nanotubes were coated with a continuous layer of silver, which will increase interfacial strength between carbon nanotubes and metal-matrix.
结合三层结构方法,文章对一些常见的面向对象界面现象进行了探讨。
Combining with the method, the paper also discusses some phenomena happened in object-oriented GUI design.
所述电解质将低共熔混合物与在初始充电时先于该低共熔混合物被还原从而形成固态电解质界面(SEI)层的添加剂结合使用。
The electrolyte USES a eutectic mixture in combination with an additive reduced in advance of the eutectic mixture upon the initial charge to form a solid electrolyte interface (SEI) layer.
随着烧结温度的升高,元素扩散加剧,过渡层的厚度越厚,材料的层间界面结合强度升高,石墨层与BN层结合的越好。
With increasing sintering temperature, the joint of graphite and BN was increased and also there was transition layer in the interfaces relative to HP.
通过化学镀在碳纳米管表面镀上一层连续的铜镀层,以改善碳纳米管与金属基体的润湿性,增强界面结合力。
Interfacial strength would be increased between carbon nanotubes and metal-matrix through electroless plating a continuous layer of copper on carbon nanotubes.
大颗粒WC颗粒周围形成了厚达数微米的反应层,界面结合强度大为提高。
The interface between large WC particles and steel matrix forms the reaction layer of several mms which enhances the toughness of interface highly.
对两种层序地层学理论基础、层序级次、层序界面等特征分析表明,这两种层序地层学理论上具有相互结合的可能性。
The characters of the two sequence stratigraphy on theoretical basis, sequence order and sequence boundary also shows that there has great possibility theoretically on their syncretization.
结果证明 :在所定的工艺参数下 ,等离子喷涂层组织呈层片状 ,层间为机械结合界面 ;
The results show that structures of plasma sprayed coatings are lamella in shape, mechanical bond in interface regions.
利用扫描电镜、能谱仪、X射线衍射等法对熔 覆合金层、合金 层与 钢基体的结合界面等进行了显微组织及相结构的分析。
The microstructure and phase constitution of the coat and the boundary between coat and substrate were studied with SEM, EDX and X-ray analysis techniques.
经分析得知母带与凝固层的界面结合是靠元素相互扩散形成过渡区实现的。
The analysis results show that the mother band and solidified layer are bonded through the transition lay…
利用金相显微镜及扫描电镜对重熔合金层及结合界面组织进行了观察。
The microstructure of the coating and the boundary between the coating and substrate were studied by SEM.
利用金相显微镜及扫描电镜对重熔合金层及结合界面组织进行了观察。
The microstructure of the coating and the boundary between the coating and substrate were studied by SEM.
应用推荐