In this paper,the microstructure and hydrogen storage properties of the(NaH/Al)+x(molar fraction,%) Ti(x=0,4,6, 10) composites were investigated.It was found that the reversible hydrogen storage properties can b...In this paper,the microstructure and hydrogen storage properties of the(NaH/Al)+x(molar fraction,%) Ti(x=0,4,6, 10) composites were investigated.It was found that the reversible hydrogen storage properties can be improved by mechanically ball-milling the(NaH/Al) mixture together with Ti powder.H2 is a better ball-milling atmosphere than Ar,because a part of NaH is consumed during the ball-milling under an Ar atmosphere.As the Ti content increases,the hydrogen storage properties are enhanced gradually.In case of x=10,the reversible hydrogen absorption/desorption capacities of the composites milled for 6 h under the H2 atmosphere reach 4.01% and 3.93%(mass fraction),respectively.The catalytic mechanism of the Ti-doped NaH/Al composites system is discussed briefly.展开更多
文摘In this paper,the microstructure and hydrogen storage properties of the(NaH/Al)+x(molar fraction,%) Ti(x=0,4,6, 10) composites were investigated.It was found that the reversible hydrogen storage properties can be improved by mechanically ball-milling the(NaH/Al) mixture together with Ti powder.H2 is a better ball-milling atmosphere than Ar,because a part of NaH is consumed during the ball-milling under an Ar atmosphere.As the Ti content increases,the hydrogen storage properties are enhanced gradually.In case of x=10,the reversible hydrogen absorption/desorption capacities of the composites milled for 6 h under the H2 atmosphere reach 4.01% and 3.93%(mass fraction),respectively.The catalytic mechanism of the Ti-doped NaH/Al composites system is discussed briefly.
