Titanyum ve alaşımlarının işlenebilirlik etüdü- Bölüm II

İlk bölümünde titanyumun genel özelliklerinin ve titanyumun işlenmesinde kullanılan kesici takım malzemelerinin işlenebilirliğe olan etkilerinin konu edildiği çalışmanın ikinci bölümünde temel kesme parametrelerinin (kesme hızı, ilerleme ve kesme derinliği) ve kesme sıvısı kullanımının işlenebilirliğe etkisi incelenecektir.

In the second part of this article, in which the basic properties of titanium and the effects of the cutting tool materials onto machinability were mentioned in the first part, the effects of cutting parameters(cutting speed, feed rate and cutting depth) and the cutting fluid onto machinability is investigated.

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  • [1] HUA J., SHIVPURI R., Prediction of chip morphology and segmentation during the machining of titanium alloys , Journal of Materials Processing Technology, basım aşamasında (2004). [2] RIBEIRO M.V., MOREIRA M.R.V., FERREIRA J.R., Optimization of titanium alloy (6Al 4V) machining , Journal of Materials Processing Technology, Cilt : 143-144, 2003,:458-463. [3] SRIDHAR B.R., DEVANANDA G., RAMACHANDRA K., BHAT R., Effect of machining parameters and heat treatment on the residual stress distribution in titanium alloy IMI-834 , Journal of Materials Processing Technology, Cilt : 139, 2003, 628-634. [4] XU J.H., GENG G.S., Experimental study on the milling of a Ti Beta 21S , Journal of Materials Processing Technology, Cilt : 129, 2002, 190-192. [5] LEI S., LIU W., High-speed machining of titanium alloys using the driven rotary tool , International Journal of Machine Tools & Manufacture, Cilt : 42, 2002, 653-661. [6] CHE-CHERON C.H., Tool life and surface integrity in turning titanium alloy , Journal of Materials Processing Technology, Cilt : 118, 2001, 231-237. [7] HONG Y.S., DING Y., JEONG W.C, Friction and cutting forces in cryogenic machining of Ti 6Al 4V , International Journal of Machine Tools & Manufacture, Cilt : 41, 2001, 2271-2285. [8] NABHANI F., Machining of aerospace titanium alloys , Robotics and Computer Integrated Manufacturing, Cilt : 17, 2001, 99-106. [9] OHKUBO C., WATANABE I., FORD J.P., NAKAJIMA H., HOSOI T., OKABE T., The machinability of cast titanium and Ti-6Al-4V , Biomaterials, Cilt : 21, 2000, 421-428. [10] JAWAID A., CHE-HARON C.H., ABDULLAH A., Tool wear characteristics in turning of titanium alloy Ti-6246 , Journal of Materials Processing Technology, Cilt : 92-93, 1999, 329-334. [11] EZUGWU E.O., WANG Z.M., Titanium alloys and their machinability-a review , Journal of Materials Processing Technology, Cilt : 68, 1997, 262-274. [12] KITAGAWA T., KUBO A., MAEKAWA K., Temperature and wear of cutting tools in high-speed machining of Incone1 718 and Ti-6A1-6V-2Sn , Wear, Cilt : 202, 1997, 142-148. [13] SCHUELLER J.K., TLUSTY J., SMITH S., LEIGH E., Advanced machining techniques on titanium rotor parts , American Helicopter Society, 56th Annual Forum, Virginia Beach, VA, May s-2000. [14] NABHANI F., Wear mechanisms of ultra-hard cutting tools materials , Journal of Materials Processing Technology, Cilt : 115, 2001, 402-412. [15] Titanium industries inc. Data and reference guide ,www.stormrobot.com/heavies/storm/design /titanium-bible.pdf [16] Titanium alloys www2.coromant.sandvik.com/coromant/pdf/aerospace/gas_turbines/C_2920_18_ ENG_043_074.pdf [17] Machining titanium & its alloys www.supraalloys.com/machining_titanium.htm [18] Details of titanium"www.kobelco.co.jp/titan/e/details.pdf [19] Materials http://claymore.engineer.gvsu.edu/~jackh/eod/pdf/material.pdf