Crystal structure of the L12 type (Al,X)3Ti alloy (X = Cr,Cu) is analyzed by X-ray diffractometry and the nonuniform strain behavior at high temperature is investigated. The lattice constants for the L12 type (Al,X)3Ti alloys decrease in the order of the atomic number of the substituted atom X, and the hardness tends to increase. In a compressive test at around 473K for Al67.5Ti25Cr7.5, Al65Ti25Cr10 and Al62.5Ti25Cu12.5 alloys, it is found that the stress-strain curves showed serration, and deformation rate dependence appeared. It is assumed that the generation of serration is due to dynamic strain aging caused by the diffusion of solute atoms. As a result, activation energy of 60-95 kJ/mol is obtained. This process does not require direct involvement. In order to investigate the generation of serrations in detail, compression tests are carried out under various conditions. As a result, in the strain rate range of this experiment, serration is found to occur after 470K at a certain critical strain. The critical strain increases as the strain rate increases at constant temperature, and the critical strain tends to decrease as temperature rises under constant strain rate. This tendency is common to all alloys produced. In the case of this alloy system, the serration at around 473K corresponds to the case in which the dislocation velocity is faster than the diffusion rate of interstitial solute atoms at low temperature.

Abstract
 1. 서 론
 2. 실험 방법
 3. 실험 결과
  3.1 X선을 이용한 결정구조분석
  3.2 경도, 강도 및 변형거동
 4. 고 찰
  4.1 결정구조
  4.2 동적변형 시효처리에 따른 세레이션의 발생
 5. 결 론
 References

• 한창석(호서대학교 자동차ICT공학과) | Chang-Suk Han (Dept. of ICT Automotive Engineering, Hoseo University) Corresponding author
• 진성윤(호서대학교 자동차ICT공학과) | Sung-Yooun Jin (Dept. of ICT Automotive Engineering, Hoseo University)
• 방효인(호서대학교 자동차ICT공학과) | Hyo-In Bang (Dept. of ICT Automotive Engineering, Hoseo University)