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Türkdoğan, Ceren, author.
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Development of adhesively bonded glass fiber reinforced polypropylene/aluminum based fiber metal
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Sandallı, Hatice, author.
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Investigation of mechanical properties and fatigue performance of carbon-glass fiber reinforced
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by
Zeren, Doğuş, author.
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Processing foam-like porous glass structure using a combined process of glass powder expansion in
by
Şahin, Yağmur, author.
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Glass construction.
by
Aydın, Mustafa, author.
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mechanical properties. For this purpose, 4 layered glass, carbon and glass/carbon hybrid fiber reinforced
by
İnci, Ezgi, author.
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particles on the glass substrate were then embedded in an elastomeric transparent matrix. The generation of
by
Ergin, Meltem, author.
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are glass types, replacement of internal and external facade layers and the depth of cavity. The
by
Oğur, Ezgi, author.
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El Yazması
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produced with using lime and recycled glass by hydrothermal synthesis method. The obtained product has a
by
Uyanık, Zemzem, author.
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sputtering at room temperature on borosilicate glass under high vacuum. The thickness of ITO, Ag, ITO films
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Keçili, Seren, author.
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bonding. Furthermore, protein modified glass substrates can be integrated in 3D-printed channels using the
by
Gökcen, Gökce, author.
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literature, the main reasons for heat losses through windows are usually stated as glass units due to their
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Kangal, Serkan, author.
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hybridization effects. Glass and carbon filaments were overwrapped to the liner with a winding angle of [±11°/90
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