Hydrogen storage alloy, negative electrode using hydrogen storage alloy, and nickel-hydrogen secondary battery using negative electrode

1 . A hydrogen storage alloy having a crystal structure in which an AB 2 type unit and an AB 5 type unit are laminated, a characteristic diagram of the hydrogen storage alloy indicating a relation between a hydrogen storage amount and a hydrogen pressure at 80° C., and including a hydrogen solid solution region, a hydride region, a first plateau region and a second plateau region, the hydrogen solid solution region being a region in which the hydrogen pressure changes at a first slope with respect to change in the hydrogen storage amount, the hydride region being a region in which the hydrogen pressure changes at a second slope with respect to the change in the hydrogen storage amount, the first plateau region being a region in which the hydrogen pressure changes at a smaller slope than the first slope and the second slope with respect to the change in the hydrogen storage amount and that has a hydrogen pressure Pd1 when hydrogen is stored by 0.25 times an effective hydrogen storage amount that is a hydrogen storage amount when the hydrogen pressure is 1 MPa, the second plateau region being a region in which the hydrogen pressure changes at a smaller slope than the first slope and the second slope with respect to the change in the hydrogen storage amount and that has a hydrogen pressure Pd2 when the hydrogen is stored by 0.70 times the effective hydrogen storage amount that is the hydrogen storage amount when the hydrogen pressure is 1 MPa, the hydrogen pressure Pd1 and the hydrogen pressure Pd2 satisfying a relation of 0.6≤log 10 ( Pd 2/ Pd 1). 2 . The hydrogen storage alloy according to claim 1 , wherein an inflection point between the first plateau region and the second plateau region is at a position corresponding to 0.35-0.50 times the effective hydrogen storage amount. 3 . The hydrogen storage alloy according to claim 1 , wherein the first plateau region is positioned on a low-pressure side and the second plateau region is positioned on a high-pressure side. 4 . The hydrogen storage alloy according to claim 1 , wherein the hydrogen storage alloy has a composition expressed by a general formula: Ln 1-x Mg x Ni y-z-α Al z M α (in the formula, Ln represents at least one element selected from the group consisting of Zr and rare earth elements, M represents at least one element selected from the group consisting of V, Nb, Ta, Cr, Mo, Fe, Ga, Zn, Sn, In, Cu, Si, P and B, and suffixes x, y, z and a satisfy relations of 0≤x<0.03, 3.3≤y≤3.6, 0.2≤z≤0.4 and 0≤α≤0.1, respectively). 5 . The hydrogen storage alloy according to claim 1 , wherein the crystal structure is a Ce 2 Ni 7 type. 6 . A negative electrode for a nickel-hydrogen secondary battery, the negative electrode comprising: a negative electrode core body; and a negative electrode mixture that is held by the negative electrode core body, the negative electrode mixture containing the hydrogen storage alloy according to claim 1 . 7 . A nickel-hydrogen secondary battery comprising: an outer can; and an electrode group that is placed in the outer can in a sealed condition together with an alkaline electrolyte, the electrode group including a positive electrode and a negative electrode that are overlapped with a separator therebetween, the negative electrode being the negative electrode according to claim 6 .