Narrow Results

The p-silicon surfaces have been irradiated with ~ 100 MeV Si⁷⁺ions to a fluence of 2.2×10¹³ ions cm^-2, and surface morphology has been studied with atomic force microscopy (AFM). Interesting features of cracks of ~ 47 nm in depth and ~ 103 nm in width on the irradiated surfaces have been observed. The observed features seemed to have been caused by the irradiation-induced stress in the irradiated regions of the target surface.

Laser cladding is one kind of advanced surface modification technology and has the abroad prospect in making the wear-resistant coating on metal substrates. However, the application of laser cladding technology does not achieve the people's expectation in the practical production because of many defects such as cracks, pores and so on. The addiction of rare earth can effectively reduce the number of cracks in the clad coating and enhance the coating wear-resistance. In the paper, the effects of rare earth on metallurgical quality, microstructure, phase structure and wear-resistance are analyzed in turns. The preliminary discussion is also carried out on the effect mechanism of rare earth. At last, the development tendency of rare earth in the laser cladding has been briefly elaborated.

The numerical and analytical methods are hardly used to solve the cracks problems for foam metal materials. Only experiments currently are used for the crack tensile and compression, as well as the cracks study of them. The finite element analysis is used to solve the problems of the crack tips, based on the similarity of the TG model and DP model. The results of the crack tips under the two conditions of the plane stress and plane strain for single notched side tension specimen are presented.