Metal Matrisli Kompozitlerin Yüksek Deformasyon Hızlarında Davranışları
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Date
1999
Authors
Güden, Mustafa
Journal Title
Journal ISSN
Volume Title
Publisher
TMMOB Metalurji ve Malzeme Mühendisleri Odası
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Abstract
Süreksiz katkılarla kuvvetlendirilmiş Alüminyum Metal Matris Kompozit'lere düşük ve yüksek deformasyon
hızlarında basma deneyleri uygulanmıştır. Düşük hızlarda (10'3/S) basma deneyleri instron makinasi ile yapılmıştır. Split Hopkinson Pressure Bar teknigi yüksek hızlarda (>100 Is) basma deneylerinde kullanılmıştır.Parçacık, whisker ve kısa fiberlerle kuvvetlendiriimiş farklı matris (alüminyum) alaşımlı kompozitler test edilmiştir. Kuvvetlendiricinin deformasyon hızına bağlı gerilmeye etkilerini araştırmak için kompozitlerin kuvvetlendirilmemiş matris alaşımlarıda benzer deformasyon hızlarında test edilmiştir. Kuvvetlendiricinin boyutu ve dağılımının, matris alaşımı ve uygulanan Isıl işlemin test edilen kompozitlerde deformasyon hızına bağlı gerilmeleri etkilediği bulunmuştur.
Discontinuous fiber reinforced Aluminum Metal Matrix Composites have been compression tested at quasi-static and high strain rates. Quasi-static (10·3/s) compression tests were conducted using an instron machine. Split Hopkinson Pressure Bar technique was used to test composites at strain rates higher than 100/s. Tested composites were particulate, whisker and short fiber reinforced and contained different aluminum matrix alloys. In order to investigate effect of reinforcement on the strain rate dependent flow stress, unreinforced matrix alloys of the composites were also tested at similar strain rate regimes. It was found that reinforcement size and orientation, matrix alloy type and heat treatment had affected strain rate dependent flow stress!iehaviorG~e the tested metal matrix composites.
Discontinuous fiber reinforced Aluminum Metal Matrix Composites have been compression tested at quasi-static and high strain rates. Quasi-static (10·3/s) compression tests were conducted using an instron machine. Split Hopkinson Pressure Bar technique was used to test composites at strain rates higher than 100/s. Tested composites were particulate, whisker and short fiber reinforced and contained different aluminum matrix alloys. In order to investigate effect of reinforcement on the strain rate dependent flow stress, unreinforced matrix alloys of the composites were also tested at similar strain rate regimes. It was found that reinforcement size and orientation, matrix alloy type and heat treatment had affected strain rate dependent flow stress!iehaviorG~e the tested metal matrix composites.
Description
ORCID
Keywords
Aluminum Metal Matrix Composites, Split Hopkinson Pressure Bar
Turkish CoHE Thesis Center URL
Fields of Science
Citation
Güden, M. & Hall, I. W. (1999). Metal matrisli kompozitlerin yüksek deformasyon hızlarında davranışları. Metalurji , 119, 20-28.
WoS Q
N/A
Scopus Q
N/A
Source
Metalurji
Volume
Issue
119
Start Page
20
End Page
28
