Experimental investigation into the EDM process of $\gamma $-TiAl
Among the advanced materials, the $\gamma $-TiAl intermetallic compounds, due to their unique properties, are being gradually employed instead of nickel base super alloys, titanium alloys, and other high temperature alloys in the aerospace and automotive industries. These properties include maintain...
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| Veröffentlicht in: | Turkish journal of engineering & environmental sciences 2014, Vol.38 (2), p.231-239 |
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| container_title | Turkish journal of engineering & environmental sciences |
| container_volume | 38 |
| creator | SHABGARD, Mohammadreza FARAJI, Hossein KHOSROZADEH, Behnam AMINI, Keivan SEYEDZAVVAR, Mirsadegh |
| description | Among the advanced materials, the $\gamma $-TiAl intermetallic compounds, due to their unique properties, are being gradually employed instead of nickel base super alloys, titanium alloys, and other high temperature alloys in the aerospace and automotive industries. These properties include maintaining high strength and creep resistance at elevated temperatures. Considering the features of this material and the limitations of traditional machining procedures, in this paper the results of utilizing the EDM process for $\gamma $-TiAl and the effects of input parameters, including discharge current and discharge duration, on output characteristics, comprising material removal rate, tool wear ratio, surface texture, and compositions and phases of machined surfaces, are presented. The results show that the EDM process affects surface integrity of $\gamma $-TiAl and causes the formation of surface cracks even at the lowest level of discharged energy. The increase in the discharge energy results in the formation of longer cracks with wider mouths. Due to the ingress of carbon and oxygen on the surface of the specimen, initial compositions and phases of machined surfaces are changed and brittle phases such as Ti$_{3}$Al and TiC are formed on the machined surfaces. |
| doi_str_mv | 10.3906/muh-1404-15 |
| format | Article |
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These properties include maintaining high strength and creep resistance at elevated temperatures. Considering the features of this material and the limitations of traditional machining procedures, in this paper the results of utilizing the EDM process for $\gamma $-TiAl and the effects of input parameters, including discharge current and discharge duration, on output characteristics, comprising material removal rate, tool wear ratio, surface texture, and compositions and phases of machined surfaces, are presented. The results show that the EDM process affects surface integrity of $\gamma $-TiAl and causes the formation of surface cracks even at the lowest level of discharged energy. The increase in the discharge energy results in the formation of longer cracks with wider mouths. 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These properties include maintaining high strength and creep resistance at elevated temperatures. Considering the features of this material and the limitations of traditional machining procedures, in this paper the results of utilizing the EDM process for $\gamma $-TiAl and the effects of input parameters, including discharge current and discharge duration, on output characteristics, comprising material removal rate, tool wear ratio, surface texture, and compositions and phases of machined surfaces, are presented. The results show that the EDM process affects surface integrity of $\gamma $-TiAl and causes the formation of surface cracks even at the lowest level of discharged energy. The increase in the discharge energy results in the formation of longer cracks with wider mouths. 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These properties include maintaining high strength and creep resistance at elevated temperatures. Considering the features of this material and the limitations of traditional machining procedures, in this paper the results of utilizing the EDM process for $\gamma $-TiAl and the effects of input parameters, including discharge current and discharge duration, on output characteristics, comprising material removal rate, tool wear ratio, surface texture, and compositions and phases of machined surfaces, are presented. The results show that the EDM process affects surface integrity of $\gamma $-TiAl and causes the formation of surface cracks even at the lowest level of discharged energy. The increase in the discharge energy results in the formation of longer cracks with wider mouths. Due to the ingress of carbon and oxygen on the surface of the specimen, initial compositions and phases of machined surfaces are changed and brittle phases such as Ti$_{3}$Al and TiC are formed on the machined surfaces.</abstract><doi>10.3906/muh-1404-15</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record> |
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| identifier | ISSN: 1300-0160 |
| ispartof | Turkish journal of engineering & environmental sciences, 2014, Vol.38 (2), p.231-239 |
| issn | 1300-0160 1303-6157 |
| language | eng |
| recordid | cdi_proquest_miscellaneous_1835599430 |
| source | EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection |
| subjects | Carbon Cracks Discharge Formations Mouth Phases Surface layer Texture |
| title | Experimental investigation into the EDM process of $\gamma $-TiAl |
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