Cu‐Ti, Co‐Ti and Ni‐Ti systems: corrosion and microhardness

J. ‐H CHERN LIN; J. B. MOSER; M. TAIRA; E. H. GREENER

doi:10.1111/j.1365-2842.1990.tb00023.x

Cu‐Ti, Co‐Ti and Ni‐Ti systems: corrosion and microhardness

J. ‐H CHERN LIN, J. B. MOSER, M. TAIRA, E. H. GREENER

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摘要

Titanium alloys of 10 wt % ‐72 wt % Cu, 10 wt % ‐80 wt % Co and 20 wt % ‐84 wt% Ni were investigated. Ingots were fabricated in a vacuum/argon tungsten arc furnace. The surfaces of the alloys were examined by optical microscopy and SEM/EDS, and the Knoop hardness values of the alloys were measured. The corrosion resistance of the alloys was determined by a potentiodynamic polarization technique in buffered Ringer's solution. When a threshold composition of 30 wt % alloy was reached, a large decrease in corrosion resistance was found to occur. Knoop hardness measurements showed that similar hardness values of approximately 300 KHN can be obtained in all systems with lower alloy content. These values are similar to those obtained with a commercial dental titanium alloy.

原文	English
頁（從 - 到）	383-393
頁數	11
期刊	Journal of Oral Rehabilitation
卷	17
發行號	4
DOIs	https://doi.org/10.1111/j.1365-2842.1990.tb00023.x
出版狀態	Published - 1990 7月

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一般牙醫學

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10.1111/j.1365-2842.1990.tb00023.x

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title = "Cu‐Ti, Co‐Ti and Ni‐Ti systems: corrosion and microhardness",

abstract = "Titanium alloys of 10 wt % ‐72 wt % Cu, 10 wt % ‐80 wt % Co and 20 wt % ‐84 wt% Ni were investigated. Ingots were fabricated in a vacuum/argon tungsten arc furnace. The surfaces of the alloys were examined by optical microscopy and SEM/EDS, and the Knoop hardness values of the alloys were measured. The corrosion resistance of the alloys was determined by a potentiodynamic polarization technique in buffered Ringer's solution. When a threshold composition of 30 wt % alloy was reached, a large decrease in corrosion resistance was found to occur. Knoop hardness measurements showed that similar hardness values of approximately 300 KHN can be obtained in all systems with lower alloy content. These values are similar to those obtained with a commercial dental titanium alloy.",

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T2 - corrosion and microhardness

AU - CHERN LIN, J. ‐H

AU - MOSER, J. B.

AU - TAIRA, M.

AU - GREENER, E. H.

PY - 1990/7

Y1 - 1990/7

N2 - Titanium alloys of 10 wt % ‐72 wt % Cu, 10 wt % ‐80 wt % Co and 20 wt % ‐84 wt% Ni were investigated. Ingots were fabricated in a vacuum/argon tungsten arc furnace. The surfaces of the alloys were examined by optical microscopy and SEM/EDS, and the Knoop hardness values of the alloys were measured. The corrosion resistance of the alloys was determined by a potentiodynamic polarization technique in buffered Ringer's solution. When a threshold composition of 30 wt % alloy was reached, a large decrease in corrosion resistance was found to occur. Knoop hardness measurements showed that similar hardness values of approximately 300 KHN can be obtained in all systems with lower alloy content. These values are similar to those obtained with a commercial dental titanium alloy.

AB - Titanium alloys of 10 wt % ‐72 wt % Cu, 10 wt % ‐80 wt % Co and 20 wt % ‐84 wt% Ni were investigated. Ingots were fabricated in a vacuum/argon tungsten arc furnace. The surfaces of the alloys were examined by optical microscopy and SEM/EDS, and the Knoop hardness values of the alloys were measured. The corrosion resistance of the alloys was determined by a potentiodynamic polarization technique in buffered Ringer's solution. When a threshold composition of 30 wt % alloy was reached, a large decrease in corrosion resistance was found to occur. Knoop hardness measurements showed that similar hardness values of approximately 300 KHN can be obtained in all systems with lower alloy content. These values are similar to those obtained with a commercial dental titanium alloy.

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Cu‐Ti, Co‐Ti and Ni‐Ti systems: corrosion and microhardness

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