CAJ | 학술논문

针对Ti_(45)Zr_(38)Ni_(17)与Ti_(40)Zr_(40)Ni_(20)准晶合金用X射线衍射仪、透射电子显微镜与金相等手段研究了不同含量的Pd替代对其结构的影响.在吸铸态下,前一个合金形成了二十面体准晶相(IQC)与少量配位数为8的bcc β-(Ti,Zr)相,用2%Pd(原子分数,下同)对合金的Ti或Zr组元替代,抑制了β-(Ti,Zr)相析出并促使配位数为14的MgZn_2结构的简单六方C14 Laves相生成.而后一个合金中IQC相则与少量简单六方α-(Ti,Zr)共存,在2%Pd替代后α-(Ti,Zr)消失,生成了单一的IQC相,但当Pd替代量增加到6.7%或13.3%时,配位数为12的IQC相急剧减少而C14相大量析出,并在Ti_(40)Zr_26.7Ni_(20)Pd_(13.3)合金中生成了单一C14相.结果表明,添加中等尺寸的Pd原子有利于提高Ti-Zr-Ni合金的原子密堆性,使合金趋于生成高配位数的Laves相,这种相的Fermi面与Brillouin区的相互作用不显著,偏离了电子相的稳定机制.
침대Ti_(45)Zr_(38)Ni_(17)여Ti_(40)Zr_(40)Ni_(20)준정합금용X사선연사의、투사전자현미경여금상등수단연구료불동함량적Pd체대대기결구적영향.재흡주태하,전일개합금형성료이십면체준정상(IQC)여소량배위수위8적bcc β-(Ti,Zr)상,용2%Pd(원자분수,하동)대합금적Ti혹Zr조원체대,억제료β-(Ti,Zr)상석출병촉사배위수위14적MgZn_2결구적간단륙방C14 Laves상생성.이후일개합금중IQC상칙여소량간단륙방α-(Ti,Zr)공존,재2%Pd체대후α-(Ti,Zr)소실,생성료단일적IQC상,단당Pd체대량증가도6.7%혹13.3%시,배위수위12적IQC상급극감소이C14상대량석출,병재Ti_(40)Zr_26.7Ni_(20)Pd_(13.3)합금중생성료단일C14상.결과표명,첨가중등척촌적Pd원자유리우제고Ti-Zr-Ni합금적원자밀퇴성,사합금추우생성고배위수적Laves상,저충상적Fermi면여Brillouin구적상호작용불현저,편리료전자상적은정궤제.
Quasicrystals are a kind of special crystals, combining aperiodicity with long-range translational order and displaying a strong potential of applications. However, the forming law of quasicrystals, especially icosahedral, which have drawn a lot of attention since the discovery of the first quasicrystal, are not clearly known. A general knowledge, derived from the past work, is that the quasicrystal belongs to Hume-Rothery phase with special electron concentration per atom (e/a), and furthermore needs meeting the topological packing of atoms. Based on this, certain criteria named by e/a-constant line, e/a-variant line and cluster line, et al., have been used to design novel quasicrystals, especially in ternary alloy systems. But, as indicated in the previous work, these rules would not work very well in pseudo-ternary or quaternary systems built on Ti-Zr-Ni quasicrystals with the addition of Co or Cu. In order to further specify the quasicrystal formation in multi-component systems, in the present study an investigation was conducted in an alloy system, based on Ti_(45)Zr_(38)Ni_(17) and Ti_(40)Zr_(40)Ni_(20) alloys with the addtion of Pd, because Pd is the neighbourship of Ni in the element table like Co and Cu and has the atom size and e/a between Ti (or Zr) and Ni. Using XRD, TEM and OM, it is found that in the suction cast alloys, the icosahedral quasicrystal (IQC) phase is formed in the coexistence of a little bcc β-(Ti,Zr) in Ti_(45)Zr_(38)Ni_(17) alloy and of a bit hexagonal α-(Ti,Zr) in Ti_(40)Zr_(40)Ni_(20) alloy. And after 2%Pd (atomic fraction) substitution for Ti and Zr, a MgZn_2-type Laves C14 phase with coordination number of 14 is precipitated along with the disappearance of β-(Ti,Zr) with coordination number of 8 in the former alloy, while only a complete IQC phase with coordination number of 12 is yielded in the latter alloy. However, as the subtitution is increased up to 6.7% or 13.3% in Ti_(40)Zr_(40)Ni_(20) alloy, the formation of IQC is prevented and the C14 phase occurs instead till a single C14 phase forms in Ti_(40)Zr_26.7Ni_(20)Pd_13.3 alloy.The results show that the Pd addition in Ti-Zr-Ni alloys would promote closer atom packing, being beneficial to the formation of Laves phase because of the weak interaction between Fermi surface and Brillouin zone in Hume-Rothery phase like IQC.