摘要 :
Argon ions were implanted into CuTe, CuSe, CuTeSeFe alloys. The breakdown electric field and the probability curves of the breakdown electric field were measured. The microhardness was also measured. Experimental results show that...
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Argon ions were implanted into CuTe, CuSe, CuTeSeFe alloys. The breakdown electric field and the probability curves of the breakdown electric field were measured. The microhardness was also measured. Experimental results show that the electric strength of alloys are improved, the breakdown electric field of the CuTe, CuTeSeFe (Fe 2%. 5%. 10%) increased after implanted and microhardness is decrease after ions are implanted.
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摘要 :
Argon ions were implanted into CuTe, CuSe, CuTeSeFe alloys. The breakdown electric field and the probability curves of the breakdown electric field were measured. The microhardness was also measured. Experimental results show that...
展开
Argon ions were implanted into CuTe, CuSe, CuTeSeFe alloys. The breakdown electric field and the probability curves of the breakdown electric field were measured. The microhardness was also measured. Experimental results show that the electric strength of alloys are improved, the breakdown electric field of the CuTe, CuTeSeFe (Fe 2%. 5%. 10%) increased after implanted and microhardness is decrease after ions are implanted.
收起
摘要 :
Argon ions were implanted into CuTe, CuSe, CuTeSeFe alloys. The breakdown electric field and the probability curves of the breakdown electric field were measured. The microhardness was also measured. Experimental results show that...
展开
Argon ions were implanted into CuTe, CuSe, CuTeSeFe alloys. The breakdown electric field and the probability curves of the breakdown electric field were measured. The microhardness was also measured. Experimental results show that the electric strength of alloys are improved, the breakdown electric field of the CuTe, CuTeSeFe (Fe 2%, 55%, 10%) increased after implanted and microhardness is decrease after ions are implanted.
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