Various kinds of Mg-Zn-Ca base alloys were rapidly quenched via melt spinning process. The meltspun ternary and quaternary alloy ribbons were heat-treated, and then the effects of additional elements on age hardening behavior and phase change of precipitates were investigated using Vickers hardness tester, XRD, and TEM equipped with EDS system. In ternary alloys, age hardening was mostly due to the distribution of and . The stable phases of precipitates were varied according to the aging temperature and the alloy composition. With the increase of Ca content, precipitates were detected more than precipitates. In quaternary alloys, the precipitates taken from Mg-Zn-Ca-Co were identified as new quaternary phase, whereas those taken from Mg-Zn-Ca-Zr as MgZnCa containing Zr. In general, the ternary alloy showed higher peak hardness and thermal stability than the quaternary considering the total amounts of the solutes. It implies that the structure of precipitate should be controlled to have the coherent interface with the Mg matrix.

석출경화형 6061Al기지합금과 SiC입자크기를 0.7μm 및 7.0μm로 변화시켜 강화한 SiCp/6061Al 합금복합재료의 시효 거동을 경도측정, DSC 시험 및 TEM관찰을 통하여 조사하였다. 170˚C에서 등온시효시 6061Al기지합금에 비하여 복합화한 0.7μmSiCp/6061Al합금복합재료 및 7.0μmSiCP/6061Al합금복합재료에서 최고경도에 도달하는 시간이 짧았으며, 또한 강화재의 크기가 큰 7.0μmSiCp/6061Al합금복합재료에서 시효촉진이 보다 크게 나타났다. 이것은 복합화 및 SiC입자크기 증가에 따른 전위 밀도 상승에 기인한다. 6061Al기지합금 및 복합재료에서 최고시효처리시의 주강화상은 봉상의 중간상 β(Mg2Si)이며,β상 생성의 활성화에너지는 복합화 및 SiG입자크기의 증가에 따라 감소되었다

등온자비 AuCu에 2.4, 4.3, 6.1at% Zn이 첨가된 합금의 시효경화거동과 상변태를 조사하였다. AuCu l형이 단독으로 존재하는 경우는 경도가 시효초기에 급격히 상승한 후 저하하였고, Zn 첨가량의 증가에 따라 규칙-불규칙 전이온도(Tc)가 약간 하강하였지만, AuCu l형+AuCu ll형의 공존영역의 온도는 훨씬 낮아졌다.

The concrete track has been developed as an alternative to the ballast track due to its excellent maintenance. Recently, QHT(Quick Hardening Track) has been developed to rapidly replace ballast track to slab track. In bridge section, post-installation anchors should be installed at the center of QHT segment in order to unify the behavior of bridge and QHT. In this study, track-bridge interaction analysis was performed to check safety of anchor considering at early age of QHT.