Sac şekillendirme işleminde sürtünmenin incelenmesi

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2017

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Manufacturing Engineering
(2003)
Opened in 2003 with the aim to graduate experts in the field of machine-production, our Department is among the firsts in our country to offer education in English. The Manufacturing Engineering program focuses on the manufacturing technologies that shape materials from raw materials to final products by means of analytical, experimental and numerical modeling methods. First Manufacturing Engineering Program to be engineered by Müdek, our department aims to graduate creative and innovative Manufacturing Engineers that are knowledgeable in the current technology, and are able to use production resources in an effective and sustainable way that never disregards environmental facts. As the first Department to implement the Cooperative Education Program at Atılım University in coordination with institutions from the industry, the Manufacturing Engineering offers a practice-oriented approach in education with its laboratory infrastructure and research opportunities. The curriculum at our department is supported by current engineering software, and catered to creating engineers equipped to meet the needs of the production industry.

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Derin çekme işleminde sürtünme, baskı plakası-sac metal-kalıp yüzeyleri arasındaki radial çekme bölgesi ve zımba-sac metal arasında gerdirme bölgesinde gerçekleşmektedir. Bu bölgelerde oluşan sürtünme katsayısı, zımba kuvveti değerleri ve optik tarayıcıdan elde edilen genleme dağılımları kullanılarak iki yöntemle hesaplanmıştır. Bu hesaplama yöntemleri hem oda sıcaklığında hem de yüksek sıcaklıklarda kullanılabilir. Derin çekme testleri kuru ve grafit yağlayıcılı koşullarda EN 10268 malzeme ile gerçekleştirilmiştir. Testler oda sıcaklığında ve 300 ℃ de zımba kuvvetini etkilyen farklı baskı kuvvetlerinde tekrarlanmıştır. Gerdirme bölgesi için ise 3 farklı çelik malzeme ile kuru ve parafin yağlayıcılı koşullarda testler gerçekleştirilmiştir. Elde edilen sürtünme katsayısı değerleri diğer yöntemlerden elde edilen sonuçlar ile karşılaştırılmıştır.
Investigation of friction is carried out in the radial drawing region between the die and blank holder and also in the stretching zone over the punch in deep drawing. Two methods are developed to calculate the coefficient of friction in each zone using the experimentally determined data such as punch force diagrams and strain distributions obtained by an optical scanning system. The current methods differ from the existing techniques which are obtained in simulative tests. The proposed methods can be applied at room temperature and at elevated temperatures. In deep drawing tests, EN 10268 steel is used with dry and graphite lubrication and hot deep drawing tests are performed at 300 ℃. Deep drawing tests are performed at different lubrication and temperature conditions. Blank holder load is another parameter which changes the punch loads. 9 different stretch forming tests are performed to determine the coefficient of friction in this zone. Three different materials are used with dry and paraffin lubricated conditions. Comparisons of friction coefficients are made with those obtained by other techniques.

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Mühendislik Bilimleri, Derin çekme, Engineering Sciences, Sürtünme, Deep drawing, Friction, Triboloji, Tribology

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124