论文信息 - Open-cellular copper structures fabricated by additive manufacturing using electron beam melting

Open-cellular copper structures fabricated by additive manufacturing using electron beam melting

Cu reticulated mesh and stochastic open cellular foams were fabricated by additive manufacturing using electron beam melting. Fabricated densities ranged from 0.73 g/cm(3) to 6.67 g/cm3. The precursor Cu powder contained Cu(2)O precipitates and the fabricated components contained arrays of Cu(2)O precipitates and interconnected dislocation microstructures having average spacings of similar to 2 mu m, which provide hardness values similar to 75% above commercial Cu products. Plots of stiffness (Young's modulus) versus density and relative stiffness versus relative density were in very close agreement with the Gibson-Ashby model for open cellular foams. These open cellular structure components exhibit considerable potential for novel, complex, multi-functional electrical and thermal management systems, especially complex, monolithic heat exchange devices. (C) 2011 Elsevier B.V. All rights reserved.

[1] M. El-Hadek,et al. Mechanical and physical characterization of copper foam , 2008 .

[2] L. Murr,et al. Microstructure evolution associated with adiabatic shear bands and shear band failure in ballistic plug formation in Ti―6Al―4V targets , 2009 .

[3] C. Tien,et al. Effects of thermal dispersion on forced convection in fibrous media , 1988 .

[4] Ryan B. Wicker,et al. Novel precipitate–microstructural architecture developed in the fabrication of solid copper components by additive manufacturing using electron beam melting , 2011 .

[5] Dimos Poulikakos,et al. Metal foams as compact high performance heat exchangers , 2003 .

[6] M. Ashby,et al. Cellular solids: Structure & properties , 1988 .

[7] M. Ashby,et al. Metal Foams: A Design Guide , 2000 .

[8] Mechanical Response of Porous Copper Manufactured by Lost Carbonate Sintering Process , 2007 .

[9] L. Murr,et al. Effect of grain size and pressure on twinning and microbanding in oblique shock loading of copper rods , 1997 .

[10] L. Murr,et al. Next-generation biomedical implants using additive manufacturing of complex, cellular and functional mesh arrays , 2010, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.