Eymen Akdeniz scite author profile

Eymen Akdeniz

3Publications

3Citation Statements Received

42Citation Statements Given

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Kırıkkale University

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A new design of boring bar using TiNi3 alloy to reduce vibration in turning operations

Akdeniz

Arslan

2022

Proceedings of the Institution of Mechanical Engineers, Part B:

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In turning operations, vibration is a significant problem that leads to an imperfect surface, cutting tool damage, and unstable production. Vibration affects not only the workpiece’s surface quality, but also the cutting tool life, and ultimately the overall process cost. Since Shape Memory Alloys (SMA) has a very high vibration damping capacity, the effect of using TiNi3 alloy as the turning tool holder material is investigated in this paper. The tool holder vibrations are investigated analytically and numerically in both external and internal turning operations. The analytical study utilizes the Laplace Transformation Method to find the natural frequency and the beam’s displacement as a function of time and the longitudinal axis. The numerical study is performed using transient and Modal Analysis using ANSYS software. A comparison of the analytical and numerical results shows that they were very close to each other. The numerical study shows that TiNi3 alloy decreases vibration amplitude and acceleration for external and internal turning operations. It is shown that the use of TiNi3 alloy in the turning cutting tools decrease the vibration acceleration amplitudes by 43.1% and 40.2% for internal and external turning operations, respectively. Additional improvement in the performance of the internal turning cutting tool is achieved by presenting a new model of the boring bar that depends on the integrating of TiNi3 alloy and carbide material. Optimization of five steps is made to obtain the optimal design of the presented model. The new model shows that the optimized boring bar decreases the vibration acceleration by 60.2% compared to the commercial boring bar. Therefore we strongly recommend it for manufacturing turning tool holders.

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Investigation of the Using of Shape Memory Alloys to Reduce Vibration in the Cutting Tool in Turning Operations

Akdeniz

Arslan

2020

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Alümi̇nyum 6066 Alaşiminin Suni̇ Yaşlandirma İşlemi̇ni̇n Uzman Si̇stem Destekli̇ İncelenmesi̇

YÜKSEL>¹,

Akdeniz²,

ÇELİK>³

et al. 2022

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Günümüzde alüminyum malzemesi hafifliği ve işlenebilirliği gibi ana etkenler dâhilinde havacılık ve savunma sanayisi başta olmak üzere kritik alanlarda kullanılmaktadır. Bulunduğu seri özelliklerine göre ısıl işlem uygulanabilirliğinden dolayı malzemenin mukavemet değerini artırma çalışmaları yapılmaktadır. Bu çalışmada ise Al 6066 alaşımının T6 ısıl işlem operasyonu altında farklı suni yaşlandırma süre ve sıcaklık değerlerinde sertlik değerleri ölçülmüş ve en uygun durum ele alınmıştır. Sıcaklık değeri olarak 160, 180, 200 ve 220 °C, süre olarak ise 2.45, 3.15, 3.45, 4.15 ve 4.45 saat kombinasyonları uygulanmıştır. Elde edilen deneysel sonuçlar geliştirilen bir uzman sistem programı içerisindeki veri tabanına yüklenmiştir. Bu sayede verilerin kullanımı, paylaşımı ve ara sonuç değerlerinin belirlenmesi yapılmıştır.

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Eymen Akdeniz

A new design of boring bar using TiNi3 alloy to reduce vibration in turning operations

Investigation of the Using of Shape Memory Alloys to Reduce Vibration in the Cutting Tool in Turning Operations

Alümi̇nyum 6066 Alaşiminin Suni̇ Yaşlandirma İşlemi̇ni̇n Uzman Si̇stem Destekli̇ İncelenmesi̇

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