Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection

Permanent URI for this collectionhttps://hdl.handle.net/11147/7148

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  • Article
    Citation - WoS: 6
    Citation - Scopus: 6
    Enhancing a Vegan Snack Bar: Edible Coating Infused With Lentil Protein and Pomegranate Peel
    (Amer Chemical Soc, 2024) Atik, Hande; Elvan, Mensure; Harsa, Sebnem
    This study aimed to coat a snack bar with an edible film made from pomegranate peel and lentil protein. The bars with edible film coating were stored at 25 degrees C and 35% relative humidity (normal conditions) and at 35 degrees C and 70% relative humidity (climate conditions). Snack bars containing dried figs and strawberries were coated using the dipping method. The physicochemical profile, microbial safety, and sensory properties of the bars were examined. The film thickness was 0.06 mm, the degree of swelling was 4.53%, and the tensile strength was 7.60 MPa. The combination of the pomegranate peel and lentil protein formed a continuous film network. The coating resulted in an increase in the phenolic and protein contents of the bars and also lowered their water activity. However, color differences were observed in the bars under the climate conditions. The edible film coating maintained the nutritional value and quality of the snack bars throughout storage.
  • Article
    Citation - WoS: 2
    Citation - Scopus: 1
    Toward Cost-Effective and Lightweight Doppler Radars: Papercraft-Based Components and Comparisons With Aluminum and 3-D Printed Alternatives
    (Institute of Electrical and Electronics Engineers Inc., 2024) Karatay,A.; Atac,E.; Yaman,F.
    Doppler radar systems have an essential role in various applications, including aviation, weather forecasting, and military surveillance. However, their high fabrication costs and heavy weight may limit their utilization in rapid prototyping, small-scale applications, and seamless transportation. To address these challenges, a novel papercraft-based approach for producing the entire Doppler radar system's horn antenna, hybrid tee, and short termination components in the X-band was investigated with details in this study, alongside conventional aluminum and 3-D printing methods. This article presents the first attempt to develop a Doppler radar using papercraft-based manufacturing. The papercraft-based approach is cost-effective, lightweight, flexible, and readily available, offering a promising route for improving and fabricating Doppler radar systems that are both affordable and accessible, particularly in resource-limited settings. The experimental results show that the papercraft-based components can perform comparably to conventional aluminum-based and 3-D-printed components, making it an innovative and cost-effective solution for fabricating Doppler radar systems. © 2023 IEEE.