1)ultrasonic-electrodeposition超声-电沉积
1.Research on the Ni-TiN Nanocomposite Coating Prepared by Ultrasonic-Electrodeposition;本论文以镍基TiN纳米复合镀层为研究对象,采用理论分析与实验研究相结合的方法,对超声-电沉积镍基TiN纳米复合镀层的制备工艺和主要性能进行研究,并利用BP神经网络对镍基TiN纳米复合镀层的粒子复合量和显微硬度建立网络预测模型。
英文短句/例句
1.Study on Microstructure and Properties of Ultrasonic-electrodeposited Ni-TiN Composite Layer超声-电沉积Ni-TiN复合镀层组织和性能研究
2.Tin- bismuth alloy was electroplating by electrodepositing associated with ultrasonic agitation.将超声和电沉积相结合电镀了锡铋合金。
3.Research on the Ni-TiN Nanocomposite Coating Prepared by Ultrasonic-Electrodeposition;超声—电沉积镍基TiN纳米复合镀层的研究
4.Effect of Ultrasound on the Wear Resistance of Electrodeposited Ni-Al_2O_3 Composite Coatings超声波对电沉积Ni-Al_2O_3复合镀层耐磨性的影响
5.Process for Preparation of Ni-Nano Y_2O_3 Composite Coating by ELectrodeposition in the Presence of Ultrasonic Irradiation超声电沉积法制备Ni-Y_2O_3纳米复合镀层的工艺
6.Pulse Electrodeposited Ni-CeO_2 Nanocomposites in an Ultrasonic Field超声-脉冲电沉积制备Ni-CeO_2纳米复合材料
7.Supersound Application in Electrodeposited Sn-CNTs Composite超声在电沉积锡基碳纳米管复合材料中应用
8.Research on Preparing Ultrofine Metal Powder by Electrodeposis with Ultrasonic Emulsification Method and Lubrication Properties of Powder;超声乳化电沉积法制备超细金属粉体及其在润滑油中的应用研究
9.Process and Wear Resistance of Ni-CeO_2 Nanocomposite Coatings by Electrodeposition with Ultrasonic Irradiation;超声电沉积Ni-CeO_2纳米复合镀层的工艺及其耐磨损性能研究
10.Study on Technology and Performances of Ultrasonic-Electrodeposited Ni-TiN Composite Coatings;纳米Ni-TiN复合镀层的超声—电沉积工艺与性能研究
11.The Effect of Ultrasonic on the Amorphous Ni-W-P and Ni-W-P/nano-ZrO_2 Electrodeposits;超声场对非晶态Ni-W-P及Ni-W-P/纳米ZrO_2镀层电沉积的影响
12.Study on Process and Properties of Pulse Electroformed Ni-CeO_2 Nanocomposite Deposits in an Ultrasonic Field超声场中脉冲电铸Ni-CeO_2纳米复合沉积层的工艺及性能研究
13.Effects of ultrasonic treatment on structure and photoluminescence of ZnO films超声处理对电沉积ZnO薄膜结构及发光性能的影响
14.Surface Morphology and Micro-structure of Ultrasonic-Electrodeposited Ni-Al_2O_3 Composite Coating超声波-电沉积Ni-Al_2O_3复合镀层的表面形貌及组织结构
15.Preparating technique of ultrasonic-electrodeposited Sn-CNTs composite超声电沉积锡基碳纳米管复合材料制备工艺研究
16.Regularity and Mechanism of Pb Electrodeposition Intensified by Super Gravity Field超重力场强化铅电沉积的规律与机理
17.Study on Seabed Sediments Ultrasound Signals in Temperature Influence;海底沉积物超声测量的温度影响性研究
18.Application of Ultrasonic Extraction for Speciation Analysis of Heavy Metal in Sediments超声波萃取法用于沉积物中重金属的形态分析
相关短句/例句
ultrasonic-electrodepositing超声电沉积
1.Study on the preparation of nano Ni-Al_2O_3 composite layer by ultrasonic-electrodepositing method;纳米Ni-Al_2O_3复合层的超声电沉积制备
2.Based on the action of ultrasonic-electrodepositing,the technique of preparating nanocermet(Ni-SiC) composite layer on the surface of metal substrates was studied.基于超声电沉积复合作用,研究在金属表面获得纳米金属陶瓷复合镀层的基本工艺。
3)utrasonic electrochemical deposition超声电化学沉积
4)sonoelectrodeposition声电沉积
1.FHA coating for C/C composites prepared by sonoelectrodeposition and treatment of NaF;声电沉积-氟化钠处理复合工艺制备C/C含氟磷灰石涂层
2.A fluorine-containing hydroxyapatite(FHA)coating was prepared on the surface of car- bon/carbon composites(C/C)using the two-step method of sonoelectrodeposition and ion exchange.用超声电沉积与离子交换相结合的方法在碳/碳复合材料表面制备含氟磷灰石(FHA)生物活性涂层,研究了离子交换时间和氟化钠浓度对含氟磷灰石(FHA)生物活性涂层的形貌、结构和组成的影响,结果表明:离子交换后的涂层是羟基磷灰石(HA)和含氟磷灰石(FHA)混合物,离子交换前后其表面形貌均呈片状晶体,随着离子交换时间的延长或氟化钠浓度的增加,HA含量降低,FHA含量升高,涂层的晶粒尺寸和致密性均发生变化,离子交换后其涂层与基体的结合强度略有增强,其原因是FHA的热膨胀系数与碳/碳复合材料基体更为匹配,涂层的残余应力减小。
3.In the paper,calcium phosphate coatings was prepared by sonoelectrodeposition.声电沉积是一种非线性涂层制备生物活性磷酸钙的新方法,然而目前关于该方法的机理还不清楚。
5)cathode sonoelectrodeposition声电沉积
1.To improve the osteo-integration ability of the surface of carbon/carbon composites,a bioactive apatite coating was prepared on carbon/carbon composites by a cathode sonoelectrodeposition technique.采用声电沉积工艺在炭/炭复合材料表面制备了磷灰石生物活性涂层,借助SEM,EDAX,XRD,FTIR等分析测试手段,考察了超声频率对涂层组成、结构和形貌的影响。
6)ultrasonic chemical deposition超声波化学沉积
1.The effects of ultrasonic chemical deposition process parameters on deposition rate of Co-Ni-B-Ce alloy film were investigated.通过对工艺的分析,得出了Co-N i-B-Ce合金超声波化学沉积的最佳工艺参数。
延伸阅读
电沉积层织构分子式:CAS号:性质:电沉积层与基体的结晶取向关系。即在沉积层中相当数量的晶粒表现出来的某种共同取向特征,又称择优取向。在多晶沉积层中,每颗晶粒的空间方位可用它的晶轴与相对于宏观基体的参考坐标系坐标轴的夹角来表示。如果沉积层中各晶粒的三根晶轴相对于参考坐标系呈随机分布,这便是无序取向。如果各晶粒的三根晶轴中有一根与参考坐标系有固定的关系,则成为一维取向,即通常所指的织构。这根晶轴即称为择优取向轴。有时择优取向轴的数目不止一根,这就意味着沉积层中有些晶粒是按某种关系相对于基体取向的,而另一些晶粒是按另一种关系相对于基体取向的。改变镀液组成、电流密度、pH等都可能引起织构的变化。
