Using reactive cladding process to prepare metallic carbide coatings is in-site synthesizing cermet phase grains during the reaction to improve the wear-resistance and erosion-resistance properties of the matrix surfaces.
反应熔覆制备金属碳化物涂层是在熔覆过程中原位生成碳化物颗粒相,来增强基体表面的耐磨耐蚀性能。
The virtue and shortage of moroxydini hydrochloridum by melt reaction and solvent reaction were compared.
本文对比了溶剂反应法与熔融反应法生产吗啉脒胍盐酸盐的优缺点,并对熔融反应法的生产工艺及生产设备作了多方面的改进,使剧烈放热的反应温度得到了很好的控制,缩短了工艺路线、降低了成本、将生产收率由原来的70%~72%,提高到93%~96%,获得了可观的经济效益,同时也解决了环保问题。
Though those processes such as solvent method, melt reaction, catalytic method, electrolytic synthesis, outer field action and biochemical technology are adopted in inorganic and petrochemical production widely and have achieved well application effects by using them, but they are seldom used in synthesizing organic intermediates.
溶剂法、熔融反应、催化反应、电解合成、外场作用及生物化工技术在无机化工和大化工生产中广泛采用 ,而且已经取得了很好的应用效果 ,但在有机中间体的合成中却很少采用。
The microstructures of Al 3Zr (p) , Al 2O 3(p) /Al composites formed by reaction in melt from ZrOCl 2 Al system were examined by X ray diffraction (XRD) and scanning electron microscope (SEM).
利用X射线衍射仪 (XRD)和扫描电子显微镜 (SEM ) ,对ZrOCl2 Al体系熔体反应生成的复合材料组织进行了分析 ,结果表明 :ZrOCl2 Al体系反应生成相为Al3 Zr和α Al2 O3 ,颗粒尺寸为 0 。
Al 3Zr (p) ,Al 2O 3(p) /A356 composites have been fabricated by reaction in melt from Al ZrOCl 2 system.
对Al ZrOCl2 体系采用熔体反应法制备了Al3Zr( p) 、Al2 O3( p) /A35 6复合材料。
Based on the one dimensional barrier penetration model, a new model is built to connect the peripheral reaction with the fusion reaction and take account of the effects of nuclear static deformation and dynamic polarization, namely deformation and energy dependent multi dimensional barrier penetration model.
基于经典的一维势垒穿透模型 ,考虑核静态形变和动力学形变效应 ,建立了联系周边反应和熔合反应的模型———形变 +能量相依的多维势垒穿透模型。
The macroscopic deformed potential energies for fusion reactions are determined within a generalized liquid drop model (GLDM) which includes the volume—,surface ,and Coulomb energies,the proximity effects,the mass asymmetry,and an accurate nuclear radius.
熔合反应的宏观形变位能由推广的液滴模型来确定 ,它包括体积能、表面能、库容能、亲和力效应、质量的不对称性和精确的核半径 。
The hot nuclei have been formed by complete and incomplete fusion reactions.
该实验通过MEDEA探测器测量了由全熔合与非全熔合反应产生的较低激发能区(160—300MeV)质量数A≈125的热核的巨偶极共振特性,比较了不同靶子、不同束流能量时巨偶极共振的γ产额的变化。
Laser in-situ Reaction Cladding of Titanium boride/titanium Composite on Titanium Substrate
钛基体上激光原位反应熔覆硼钛化物/钛复合涂层(英文)
Growth Mechanism of in-situ Synthesized TiC and TiB_2 by Laser Cladding
激光熔覆反应合成TiC和TiB_2的生长机制
Study on In-situ Synthesis TiC-VC Particles Reinforced Fe-based Coating Produced by Laser Cladding;
激光熔覆原位反应生成TiC-VC增强铁基熔覆层的研究
In-situ synthesis of Mo-Ni-B ternary boride cladding
原位反应合成Mo-Ni-B系三元硼化物熔覆层的研究
Study on Microstructure and Performance of Induction Cladding in Situ Synthesized TiC/Ni-based Cladding Coatings
感应熔覆原位合成TiC/Ni基熔覆层的组织与性能研究
Microstructure and Erosive-corrosive Wear Characteristics of Induction Cladded Ni/Cr_3C_2-NiCr Coating
感应熔覆Ni基合金/碳化物熔覆层的组织与冲蚀磨损性能
Study on Technology and Mechanism of Laser-Induction Hybrid Cladding
激光—感应复合熔覆工艺及机理研究
Study on Anticorrosion and Antiwear Coatings Manufactured by High Frequency Induction Cladding
高频感应熔覆制备耐蚀耐磨涂层研究
Development and Industrial Application of Laser Cladding Technology
激光熔覆技术研究进展及其工业应用
alkali fusion reaction gas chromatography
碱熔反应气相色谱(法)
Study on Slurry Abrasive Characteristics of Laser Cladding Coating and Its Application
激光熔覆涂层的浆体磨损特性及其应用研究
Mechanics Study and Modeling of Low Stress Repeated Impact Deformation of Laser Cladding Coat;
激光熔覆涂层低应力多冲形变机理研究与建模
Study on Plastic Deformation Law and Model of Laser Cladding Coat under Low Repeated Impact Load;
激光熔覆涂层低应力多碰塑性变形研究及建模
Study on Properties of Micro-Nano WC-Ni60A Composite Coating by High Frequency Induction Cladding;
高频感应熔覆微纳米WC-Ni60A复合涂层性能的研究
A Study of Ceramic-Metal Composite Coating Technique Prepared by Laser-Induction Hybrid Cladding;
激光—感应复合熔覆金属陶瓷层技术的研究
Analysis and Numerical Simulation of Temperature and Stress During Laser Cladding Process
激光熔覆的温度及应力分析和数值模拟
Study on Ni60A Alloy Powder Coating by Supersonic Frequency Induction Heating
超音频感应熔覆Ni60A合金粉末涂层的研究
Study on Ultimate Conditions of Ni-based WC Coatings Prepared by Laser Induction-hybrid Cladding
激光-感应复合熔覆WC-Ni涂层极限条件研究