The influence of elements Mn,Ni on the structures is studied by analysizing the quantity and configuration of thermoelastic martensites in samples .

This empirical expression will be correspondent with that of semiquantitative relationship between thermoelastic martensite transformation a.

The point defects induced by electron irradiation make the lattice distortion of martensite phase and the increase of the ordering degree which bring about the stabilization of martensite.

Experimental results indicated that the grain size of Cu-Zn-Al alloys is refined greatlyby adding a small amount of boron and rare-earth elements,and the mechanical property is improved,Furthermore,by various quenching and aging treatments the stabilization of martensitecan be reduced and the shape memory effect of Cu-Zn-Alalloys is enhanced effectively.

Thermoelastic martensitic transformation is one of the most important features of these alloy systems and the behavior of the phase interface in the thermoelastic martensitic transformation will to a considerable degree d.

The results of metallograph, X ray diffraction, and resistance experiments confirmed that thermal elastic martensitic transformation could be showed in casting Cu Al Be alloys.