激光熔覆含B_4C_p,SiC_p钴基合金涂层的组织与耐磨性能

运用激光熔覆技术在16Mn钢表面制备了钴基合金涂层(Co55)、含20%SiCp(体积分数,下同)的钴基合金涂层(CoSiC)以及含20%B4Cp钴基合金涂层(CoB4C),比较研究了合金涂层的组织、相结构、显微硬度及滑动磨损性能。结果表明:合金涂层由涂层结合区的胞状共晶组织及涂层区的树枝状亚共晶组织组成,CoSiC涂层及CoB4C涂层的树枝晶比Co55涂层的更细小;B4Cp及SiCp在熔覆过程中完全熔解,其分解出的B,C,Si与涂层中的合金元素结合形成了更多的化合物,Co55涂层由γ Co和(Cr,Fe)7C3组成,CoSiC涂层由γ Co,Cr7C3,Cr23C6,CoSi2,Cr3Si和Si2W组成,CoB4C涂层由γ Co,Cr7C3,Cr23C6,CrB,CrB2和Fe23(C,B)6组成;3种激光熔覆涂层的显微硬度及耐磨性由高到低的顺序为CoB4C→CoSiC→Co55。对涂层的强化机理进行了分析。

激光熔覆镍基金属陶瓷涂层的组织性能研究

运用 5kWCO2 连续激光器在 16Mn钢表面激光熔覆镍基B4 C金属陶瓷层 (NB4 C)和镍基SiC金属陶瓷层(NSiC) ,研究了两种激光熔覆层的组织、结构、显微硬度及滑动磨损特性 ,并用激光熔覆镍基合金层 (Ni6 0 )进行了滑动磨损对比试验。结果表明 ,熔覆合金层显微组织由枝晶固溶体及其间细密的共晶组织组成 ,NB4 C熔覆层主要组成相为γ Ni,γ (Ni,Fe) ,(Cr,Fe) 7C3,CrB ,Ni3B ,Fe2 B ,Fe2 3(C ,B) 6 和B4 C等 ,NSiC熔覆层主要组成相为γ Ni,γ (Fe,Ni) ,(Cr,Fe) 7C3,Cr2 3C6 和 (Cr ,Si) 3Ni3Si等。三种激光熔覆层的显微硬度及耐滑动磨损性能由高到低的顺序为 :NB4 C→NSiC→Ni6 0。

激光熔覆含SiCp添加物的CoSiC涂层的组织与性能

利用5kW连续波CO2激光器在16Mn钢基材表面对预置的添加20vol%SiCP的Co基合金粉末进行激光熔覆得到Co基SiC合金涂层(CoSiC)。研究了合金涂层的组织形貌及相结构,并与激光熔覆钴基合金涂层(Co55)进行了显微镜硬度及滑动磨损性能的对比试验。结果表明,CoSiC合金涂层组织由涂层底部的细密胞状共晶组织和涂层中上部的树枝状亚晶共晶组织所组成,主要组成相为γ-Co,Cr7C3,Cr23C6,CoSi2,Cr3Si及Si2W等。添加SiCp被完全溶解。激光熔覆CoSiC涂层比Co55涂层具有更高的硬度和耐磨性,并分析了其强化机理。

Conversion of twisted light to twisted excitons using carbon nanotubes

Carbon nanotubes are explored as a means of coherently converting the orbital angular momentum of light to an excitonic form that is more amenable to quantum information processing.An analytical analysis,based on dynamical conductivity,is used to show that orbital angular momentum is conserved,modulo N,for a carbon nanotube illuminated by radially polarized,twisted light.This result is numerically demonstrated using real-time time-dependent density functional theory which captures the absorption of twisted light and the subsequent transfer of twisted excitons.The results suggest that carbon nanotubes are promising candidates for constructing optoelectronic circuits in which quantum information is more readily processed while manifested in excitonic form.