KOMPAKT LAMİNATIN DELİNMESİNDE BOYUTSAL TAMLIK İÇİN DELME PARAMETRELERİNİN GRİ İLİŞKİSEL ANALİZ İLE OPTİMİZASYONU
Delik delme prosesi kompakt laminat kompozitten üretilmiş parçaların montajı için kritik öneme sahiptir. Uygun
seçilmeyen delme parametreleri deliklerin boyutsal tamlığını etkilemektedir. Bu deneysel çalışmada, bir
kompakt laminat kompozit plaka üzerine, üç farklı kesme hızında (Vc:178, 250 ve 350 m/dak), üç farklı ilerleme
miktarında (f:0.07, 0.111 ve 0.156 mm/dev) ve iki farklı delme tipinde (Dt:Doğrusal delme ve gagalama ile
delme), 12 mm çapında yüksek hız çeliği matkap uçları kullanılarak, kuru delme işlemi ile boydan boya delikler
delinmiştir. Taguchi L18 ortogonal dizi kompakt laminat kompozit plakların delinmesini gerçekleştirmek için
kullanılmıştır. Proses parametrelerinin çoklu performans optimizasyonu gri ilişkisel analizi kullanılarak
gerçekleştirilmiş ve regresyon analizi ile tahminsel denklemler geliştirilmiştir. İki proses performans
parametresi; yeni matkap ucu ile delinmiş delik çaplarının boyutsal tamlığı (Da1) ve aşınmış matkap ucu ile
delinmiş delik çaplarının boyutsal tamlığı (Da2) optimize edilmiştir. Bu araştırmanın sonucu kesme hızı ve
ilerleme miktarının deliğin boyutsal doğruluğu üzerinde en önemli etkiye sahip olduğunu ortaya koymuştur.
Kompakt laminat kompozitin delinmesinde delme parametrelerinin optimal seviyeleri; Vc:178 m/dak, f:0.156
mm/dev ve Dt:Gagalama ile delme olarak belirlenmiştir.
OPTIMIZATION OF DRILLING PARAMETERS FOR DIMENSIONAL ACCURACY IN DRILLING OF COMPACT LAMINATE COMPOSITE USING GRAY RELATIONAL ANALYSIS
The hole drilling process is critical for the assembly of parts manufactured from compact laminate composite.
Unsuitable selected drilling parameters affect the dimensional accuracy of the holes. In this experimental study,
through holes were drilled with three different cutting speed (VC:178, 250 and 350 m/min), three different feed
rate (f:0.07, 0.111 and 0.156 mm/rev) and two different drilling type (Dt: Linear drilling and peck drilling) in dry
drilling process of a compact laminate composite plate using high speed steel drill bits with a diameter of 12
mm. The Taguchi L18 orthogonal array was used to perform drilling of compact laminate composite plates.
Multiple performance optimization of the process parameters was performed using Gray Relational Analysis and
predictive equations were developed via regression analysis. Two process performance parameters namely
dimensional accuracy of hole diameter drilled with new drill bit (Da1) and dimensional accuracy of hole
diameter drilled worn drill bit (Da2) were optimized. The results of this research revealed that the cutting speed
and the feed rate have the most significant effect on the dimensional accuracy of the hole. Optimal levels of drilling parameters are defined as; Vc:178 m/min, f:0.156 mm/rev and Dt:Peck drilling, in the drilling of compact
laminate composites.
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