EFFECTS OF SEVERE PLASTIC DEFORMATION ON MECHANICAL PROPERTIES, ELECTRICAL CONDUCTIVITY AND MICROSTRUCTURE OF AL-7075 ALLOY

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DASHTI A.; SHAERI M.H.; TAGHIABADI R.

مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

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Journal: JOURNAL OF NEW MATERIALS Year:2018 | Volume:8 | Issue:2 (30) Page(s): 73-86

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Title

EFFECTS OF SEVERE PLASTIC DEFORMATION ON MECHANICAL PROPERTIES, ELECTRICAL CONDUCTIVITY AND MICROSTRUCTURE OF AL-7075 ALLOY

Author(s)

DASHTI A. | SHAERI M.H. | TAGHIABADI R. | Issue Writer Certificate

Keywords

ECAP AND MDF PROCESSESQ2

AL-7075 ALLOYQ2

MECHANICAL PROPERTIESQ2

MICROSTRUCTUREQ2

ELECTRICAL CONDUCTIVITYQ2

Abstract

The aim of current research was to examine the MICROSTRUCTURE, MECHANICAL PROPERTIES and ELECTRICAL CONDUCTIVITY of AL-7075 ALLOY that develops during Equal Channel Angular Pressing (ECAP) and Multi Directional Forging (MDF). The Annealed AL-7075 ALLOY was subjected up to 3 and 4 passes of MDF and ECAP deformation at room temperature, respectively. Followed by ECAP, Vickers microhardness and shear punch test were performed and microstructural observations were undertaken using transmission electron microscopy (TEM). The ELECTRICAL CONDUCTIVITY was also measured by eddy current method. Microstructural investigations show that after 4 passes of ECAP very fine grains with average grain size of about 350 nm appear and most of the grains evolve into arrays of high angle boundaries. On the other hand, 3 passes of MDF leads to higher grain size (950 nm) and lower fraction of high angle boundaries compared with 4 pass of ECAP. MECHANICAL PROPERTIES of specimens increase about 100 and 50 percent after 3 passes of MDF and 4 passes of ECAP, respectively. So, it can be concluded that the ECAP process is more effective than the MDF process in grain refinement and improvement of MECHANICAL PROPERTIES. The ELECTRICAL CONDUCTIVITY measurement at room temperature showed that there was no significant change in the conductivity of the processed samples compared with the initial specimen. Finally, it can be deduced that grain refinement during ECAP AND MDF PROCESSES can be considered as a strategy to improve mechanical strength of pure metals without sacriﬁce of their ELECTRICAL CONDUCTIVITY.

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APA: Copy

DASHTI, A., SHAERI, M.H., & TAGHIABADI, R.. (2018). EFFECTS OF SEVERE PLASTIC DEFORMATION ON MECHANICAL PROPERTIES, ELECTRICAL CONDUCTIVITY AND MICROSTRUCTURE OF AL-7075 ALLOY. JOURNAL OF NEW MATERIALS, 8(2 (30) ), 73-86. SID. https://sid.ir/paper/169707/en

Vancouver: Copy

DASHTI A., SHAERI M.H., TAGHIABADI R.. EFFECTS OF SEVERE PLASTIC DEFORMATION ON MECHANICAL PROPERTIES, ELECTRICAL CONDUCTIVITY AND MICROSTRUCTURE OF AL-7075 ALLOY. JOURNAL OF NEW MATERIALS[Internet]. 2018;8(2 (30) ):73-86. Available from: https://sid.ir/paper/169707/en

IEEE: Copy

A. DASHTI, M.H. SHAERI, and R. TAGHIABADI, “EFFECTS OF SEVERE PLASTIC DEFORMATION ON MECHANICAL PROPERTIES, ELECTRICAL CONDUCTIVITY AND MICROSTRUCTURE OF AL-7075 ALLOY,” JOURNAL OF NEW MATERIALS, vol. 8, no. 2 (30) , pp. 73–86, 2018, [Online]. Available: https://sid.ir/paper/169707/en

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