The technique characteristics and demand of in-situ deformation observation of rock mass and foundation are presented for stability evaluation.

Influencing factors of DPD are numerous and mechanism of DPD is complex,so the research group of DPD designed with and without drain pile in situ deformation test to research depth and range of influence of DPD.

Cu-Cr-Zr in-situ deformation composite was prepared using the melting and forging in vacuum and the in-situ production technique.

Cu-15%Cr in-situ deformation composite was prepared using melting and forging in air and the in-situ production technique, the mircrohardness, tensile strength and electrical conductivity under different strain capacity and different intermediate heat treatment temperature were tested, and the microstruture of Cu-15%Cr in-situ deformation composite was studied.

The effect of solution and aging treatment on the structure and properties of Cu-Fe alloys and the effect of deformation, intermediate heat treatment, annealing treatment and doping with a little of Zr or Mg on the structure and properties of deformation-processed Cu-Fe in situ composite were investigated.