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A STUDY ON ALUMINIDE COATINGS ON TiAl ALLOYS BY PACK CEMENTATION METHOD

C.G. Zhou , H.B. Xu and S.K. Gong (Department of Materials Science and Engineering , Beijing University of Aeronautics and Astronautics , Beijing 100083 , China) K. Y. Kim (Department of Materials Science and Engineering , Pohang University of Science and Technology , San31 , Hyoja-dong , Pohang 790-784 Korea)

金属学报(英文版)

The halide-activated pack cementation method is utilized to deposit aluminide coat- ings on TiAl alloys. Emphasis is placed on the effect of alloying elements on the aluminizing behavior of TiAl alloy. The addition of a small amount of Nb or Cr in the TiAl improves significantly the aluminizing kinetics of TiAl alloys by increasing the solid-state division of Al through the formation of stable TiAl3 layer. The TiAl3 layer formed on the TiAl alloyed with Nb or Cr has better toughness than the TiAl3 formed on the non-alloyed TiAl. The reason for better toughness of the coating formed on TiAl is that partial TiAl3 with tetragonal structure was changed to high symmetry cubic L12 structure since Nb or Cr was dissolved into TiAl3. The TiAl3 layer formed on the TiAl alloyed with Nb or Cr has much better oxidation resistance than the TiAl3 layer formed on the non-alloyed TiAl. It is attributed to change in the crystal structure of TiAl3 from the brittle tetragonal DO22 to the ductile cubic L12 by addition of small amount of Nb or Cr.

关键词: TiAl , null , null , null

MODELING OF SUPERPLASTIC FORMING PROCESS FOR ALUMINUM ALLOYS WITH STRAIN HARDENING EFFECT

Y.N. Kwon and Y.-W. Chang(Center for Advanced Aerospace Materials (CAAM) , Pohang University of Science and Technology , Pohang 790-784. Korea Manuscript received 26 August 1996)

金属学报(英文版)

Superplastic forming of a thin sheet into complex shape is an important manufacturing process especially in aerospace industry. The main objective of modeling the superplastic forming process is to predict the forming pressure-time cycle to maintain the optimum strain rate and the resulting thickness distribution. There have been many attempts to model superplastic forming process using the various techniques including finite element method. However, most of these attempts so far have disregarded the strain hardening effect which occurs in several superplastic materials. In this study,we have used ABAQUS finite element code to predict the suitable processing variables during an axisymmetric cup forming of Supral 100 and 7075Al alloys to examine the strain hardening effects on forming. The performance of numerical results was then compared with the experimental results.

关键词: :superplastic forming , null , null , null , null

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