助手标题
全文文献 工具书 数字 学术定义 翻译助手 学术趋势 更多
查询帮助
意见反馈
共[332]条 当前为第1条到20条[由于搜索限制,当前仅支持显示前5页数据]
 

相关语句
结合强度
    Effect of Rolling Parameters on the Bonding Strength and Morphology of the Peeled Surface of Ti/Al Clad Sheet
    轧制参数对钛/铝轧制复合板的结合强度和剥离面SEM形貌的影响
    Study on the Bonding Strength of the Composite Interface of a Bioactive Glass Ceramics-TC4 Alloy
    生物活性玻璃陶瓷-TC4钛合金复合界面结合强度的研究
    When measured the bonding strength(MPa) of the samples, group Ⅳ was higher than group Ⅲ(P<0.01), and group Ⅰ was higher than group Ⅱ(P<0.05).
    结合强度Ⅳ组明显高于Ⅲ组(P<0.01),Ⅰ组高于Ⅱ组(P<0.05);
    Compared with the surface of duty cycle 0.2,the surface of duty cycle 0.04 test pieces had similar holes. The bonding strength of the samples, group Ⅲ was higher than group Ⅱ(P<0.01), group Ⅳ was higher than group Ⅰ(P<0.01);
    占空比由0.04增加至0.2时,氧化膜表面分布的微孔直径无明显变化,结合强度Ⅲ组明显高于Ⅱ组(P<0.01),Ⅳ组高于Ⅰ组(P<0.01)。
    Method:The roughness(Ra),contact angle of titanium surface and the bonding strength of titanium/porcelain were evaluated after using the different size of Al_2O_3(50μm,120μm,180μm,250μm)in 2 bar air pressure to rough the titanium surface.
    方法:采用不同粒度(50μm,120μm,180μm,250μm)的Al2O3在2bar压力下以45°角对钛表面进行喷砂粗化处理后,对钛表面粗糙度、钛表面接触角以及钛/瓷结合强度进行检测。
    The detecting results show that,the interface of bimetal compound casting is completely metallurgical combine,there are two continuous distribution layers(FeAl3 and Fe2Al5) in the interface. The bonding strength is about 76.4MPa.
    所得到的双金属复合铸件结合界面为完全冶金结合,复合层组织为连续分布FeAl_3与Fe_2Al_5中间化合物,界面结合强度为76.4MPa。
    SBF test and cell culture in vitro were carried out to evaluate the biological properties of the composite coatings. The results showed that the bonding strength of the HA-Ti/HA composite coating (Ti, 51.2wt%) was as high as 21. 2 MPa which was 3 times that of pure HA coatings.
    实验结果表明: HA-Ti/HA复合涂层的结合强度明显高于HA涂层,当涂层中Ti的质量分数为51.2 wt%时,涂层与基体的结合强度达到21.2 MPa,约为纯HA涂层的3倍。
    The relatirization between the bonding strength of the reaction film to the substrate and the maximum non-seizure load is very good.
    油浸试验反应膜强度划痕试验表明:反应膜与试块低材的结合强度与最大无卡咬负荷之间存在着很好的相关性。
    Double gradient structure strengthened the bonding strength of ceramic and metal, then excellent mechanical properties of composite pipes were got.
    双层梯度结构提高了陶瓷/金属界面结合强度,使复合管具有良好的力学性能.
    The bonding strength and porosity and hardness of nanostructured Al_2O_3+13%TiO_2 coatings produced by micro-plasma spraying are superior to the same coatings produced by 9M plasma spraying. As the result,the coating of the excellent properties can be deposited by multi-functional micro-plasma spraying on condition of lower power plasma arc.
    利用研制的多功能微弧等离子喷涂制备的纳米结构Al_2O_3+13%TiO_2涂层的结合强度、孔隙率、显微硬度等性能优于9M等离子喷涂制备的纳米结构的Al_2O_3+13%TiO_2涂层,这表明通过改进喷枪的结构设计、送粉方式等,低功率多功能等离子喷涂能够制备出优异性能的涂层。
    The thickness of the coating was about 50μm and the bonding strength between coating and Ti6Al4V was 8.5Mpa.
    所制备涂层厚度约50μm,结合强度8.5MPa。
    Influence of Additive TiO_2 on the Bonding Strength of Plasma- sprayed Biologic HAP Coating
    TiO_2添加剂对等离子喷涂生物涂层HAP结合强度的影响
    THE INFLUENCE OF THE NITRIDED LAYER STRUCTURE OF W18Cr4V HIGH SPEED STEEL ON THE BONDING STRENGTH OF PECVD TiN FILMS
    高速钢W18Cr4V离子渗氮层组织对TiN膜与基体结合强度的影响
    Effect of Intermixing Parameters on the Bonding Strength of IBED Cr-N Coatings
    离子束增强沉积界面共混工艺对Cr-N镀层结合强度的影响
    A study on the bonding strength and the elongation of stainless steel/aluminum complex sheet
    不锈钢复铝板结合强度和延伸率的实验研究
    Effects of Pretreatment on the Bonding Strength of PPS/FEP Composite Anti-corrosive Coatings
    表面预处理对PPS/FEP复合防腐涂层结合强度的影响
    Effect of marrow cavity debridement on the bonding strength of the interface between bone and bonecement
    骨髓腔冲刷对骨水泥-骨界面结合强度的影响
    Study of the Bonding Strength of Bioceramic Coatings by Electrodeposition Hydrothermal Synthesis
    电沉积-水热合成法制备的生物陶瓷涂层与基体界面结合强度的研究
    Study on the Bonding Strength and Thermal Stability of Electrodeposition HA/TiO_2 Composite Coating
    电沉积HA/TiO_2复合涂层的结合强度和热稳定性研究
    The Bonding Strength and Failure Modes of Thermal Barrier Coatings
    热障涂层结合强度及失效模式研究
 

首页上一页12345下一页尾页 

 
CNKI主页设CNKI翻译助手为主页 | 收藏CNKI翻译助手 | 广告服务 | 英文学术搜索
版权图标  2008 CNKI-中国知网
京ICP证040431号 互联网出版许可证 新出网证(京)字008号
北京市公安局海淀分局 备案号:110 1081725
版权图标 2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社