초록 ▼

Lightweight metal matrix composites containing a skeleton structure of titanium, titanium aluminide, or Ti-based alloy are manufactured by low temperature infiltration with molten Mg-based alloy or Mg--Al alloy at 450-750° C., with molten In, Pb, or Sn at 300-450° C., or with molten Ag and Cu at 900

Lightweight metal matrix composites containing a skeleton structure of titanium, titanium aluminide, or Ti-based alloy are manufactured by low temperature infiltration with molten Mg-based alloy or Mg--Al alloy at 450-750° C., with molten In, Pb, or Sn at 300-450° C., or with molten Ag and Cu at 900-1100° C. The skeleton structure with a density of 25-35% is produced by loose sintering of Ti or Ti-based alloy powders. A primary deformation of the Ti skeleton structure before the infiltration is carried out by cold or hot rolling or forging to obtain a porous flat or shaped preform with a porosity 3Al, and TiAl3. Subsequent re-sintering or diffusion annealing form a fully dense final structure of the resulting material having improved mechanical properties. The molten Mg-based infiltrate is alloyed with Al, Si, Zr, Nb, and/or V with the addition of TiB2,SiC, and Si3N4sub-micron particles as infiltration promoters. The molten Agcomer- or Cu-based infiltrate can be alloyed with elements depressing its melting point. The method allows for control of the microstructure of composite materials by changing parameters of deformation, infiltration, and heat treatment. The method is suitable for the manufacture of flat or shaped metal matrix composites having improved ductility, such as lightweight bulletproof plates and sheets for aircraft and automotive applications, composite electrodes, heat-sinking lightweight electronic substrates, sporting goods such as helmets, golf clubs, sole plates, crown plates, etc.

대표청구항 ▼

1. The manufacture of metal matrix composites containing 10-99 wt. % of permeable skeleton structure of titanium, titanium aluminide, titanium-based alloys, and/or mixtures thereof, and 1-90 wt. % of low-melting metal infiltrating said skeleton structure includes the steps of: (a) forming the per

1. The manufacture of metal matrix composites containing 10-99 wt. % of permeable skeleton structure of titanium, titanium aluminide, titanium-based alloys, and/or mixtures thereof, and 1-90 wt. % of low-melting metal infiltrating said skeleton structure includes the steps of: (a) forming the permeable metal powder into the skeleton structure by loose sintering in vacuum, or direct powder rolling, die pressing, and/or cold isostatic pressing followed by sintering in vacuum or low-pressure sintering in an inert gas, or combinations thereof to provide the average porosity of 20-70%, (b) deformation of the skeleton structure by cold or hot rolling, or forging to obtain a porous flat or shaped preform with a predetermined shape and size of pores and with the porosity gradually changing across the preform thickness, (c) heating the obtained porous preform and infiltrating metal in vacuum or in an inert gas atmosphere up to the infiltration temperature, (d) infiltrating the porous preform with molten infiltrating metal for 10-40 min at 300-1100° C., (e) deformation of the infiltrated composite preform by cold or hot rolling, hot isostatic pressing, coining, forging, or combinations thereof to refine microstructure of the infiltrated composite and transform it into the textured microstructure strengthened by intermetallic phases, (f) re-sintering or diffusion annealing activated by the deformation on the previous step. 2. The manufacture according to claim 1, wherein the infiltrating molten metal contains 1-70 wt. % of aluminum and magnesium in the balance. 3. The manufacture according to claim 1 or 2, wherein the infiltrating molten metal contains aluminum 1-70 wt. %, at least one metal selected from the group of titanium, silicon, zirconium, niobium, and/or vanadium 1-4 wt. %, and magnesium in the balance. 4. The manufacture according to claim 3, wherein the infiltrating molten metal contains additionally 0-3 wt. % of at least one dispersed powder selected from the group of TiB2,SiC, and Si3N4having a particle size of 0.5 μm or less, to promote infiltrating and wetting by Al-containing alloys. 5. The manufacture according to claim 1, wherein the obtained metal matrix composite contains 25-60 wt. % of titanium or titanium-based alloy and 40-75 wt. % of magnesium, magnesium-based alloy, or aluminum-based alloy. 6. The manufacture according to claim 1, wherein the deformation of the infiltrated composite preform is carried out by hot rolling at 300-550° C. to form TiAl, Ti3Al, and TiAl3intermetallic phases realizing the strengthening of the composite material after the final deformation and heat treatment. 7. The manufacture according to claim 1, wherein the infiltrating metal is selected from the group of indium, tin, lead, bismuth, or alloys based on these metals. 8. The manufacture according to claim 1, wherein the infiltrating metal is selected from the group of silver, copper, or their alloys. 9. The manufacture according to claim 1, wherein the obtained metal matrix composite contains 25-60 wt. % of titanium-zirconium alloy and 40-75 wt. % of magnesium, magnesium-based alloy, or aluminum-based alloy. 10. The manufacture according to claim 1, wherein the infiltration of porous preform is carried out spontaneously in vacuum, by a pressure gradient, hot isostatic pressing, hot pressing, or under low pressure of an inert gas. 11. The manufacture according to claim 1 includes multiple deformations and annealing of the skeleton preform and infiltrated composite.