Abstract:The lotus-type porous copper bars with 45 mm in diameter and 120 mm in length were fabricated by unidirectional solidification at hydrogen pressure of 0.2 MPa and molten temperature of 1 200 ℃. The compressive deformation process of the lotus-type porous copper with pore perpendicular to the compressive direction and its effect factors were investigated. The deformation mechanism of lotus-type porous copper with pores perpendicular to the compressive direction was also analyzed and discussed. The results show that the deformation of the lotus-typed porous copper consists of four stages of elastic deformation, plastic yield deformation, densification and plastic deformation after densification. The main deformation mechanism in the plastic yield stage is that several deformation bands generate sequentially under the perpendicular loading, and in these deformation bands the pores are deformed by flattening and collapsing sequentially. Based on the above results, the compressive mechanical model of the lotus-type porous metals with pores perpendicular to the compressive direction is established using the method of linear regression.

Key words: gas-metal eutectic unidirectional solidification; lotus-type porous metal; compressive deformation; deformation behaviors; constitutive relation