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Yahya Kara
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Year
A review of processing strategies to generate melt-blown nano/microfiber mats for high-efficiency filtration applications
Y Kara, K Molnár
Journal of Industrial Textiles 51 (1_suppl), 137S-180S, 2022
712022
Karbon elyaf takviyeli karbon nanotüp katkılı epoksi kompozit helisel yayların mekanik davranışları
Y Kara, H Akbulut
Gazi Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi 32 (2), 417-427, 2017
30*2017
Effect of needle characteristic on fibrous PEO produced by electrospinning
H He, Y Kara, K Molnar
Resolution and Discovery 4 (1), 7-11, 2019
292019
Shear‐aided high‐throughput electrospinning: A needleless method with enhanced jet formation
Y Kara, H He, K Molnár
Journal of Applied Polymer Science, 49104, 2020
272020
Revealing of process–structure–property relationships of fine polypropylene fiber mats generated via melt blowing
Y Kara, K Molnár
Polymers for Advanced Technologies 32 (6), 2416-2432, 2021
252021
A novel method and printhead for 3D printing combined nano-/microfiber solid structures
Y Kara, NK Kovács, P Nagy-György, R Boros, K Molnár
Additive Manufacturing 61, 103315, 2023
202023
Development of self-reinforced low-density polyethylene using γ-irradiation cross-linked polyethylene fibres
L Mészáros, Y Kara, T Fekete, K Molnár
Radiation Physics and Chemistry 170, 108655, 2020
182020
In Situ Viscosity‐Controlled Electrospinning with a Low Threshold Voltage
H He, Y Kara, K Molnár
Macromolecular Materials and Engineering 304 (11), 1900349, 2019
182019
A Review: Fiber Reinforced Polymer Composite Helical Springs
Y Kara
Journal of Materials Science & Nanotechnology 5 (1), 2017
182017
Decomposition behavior of stereocomplex PLA melt-blown fine fiber mats in water and in compost
Y Kara, K Molnár
Journal of Polymers and the Environment 31 (4), 1398-1414, 2023
122023
Development of single‐polypropylene composites interleaved with MWCNT‐doped melt‐blown fine fiber mats
Y Kara, K Molnar
Polymer Composites 43 (8), 5208-5221, 2022
92022
Single polymer composites made of melt-blown PP mats and the modelling of the uniaxial tensile behaviour by the fibre bundle cells method
ÁD Virág, Y Kara, LM Vas, K Molnár
Fibers and Polymers 22 (10), 2700-2713, 2021
72021
Melt-blown fiber mat interleaving enhances the performance of single-polypropylene composites
Y Kara, K Molnár
Journal of Reinforced Plastics and Composites 41 (23-24), 963-974, 2022
52022
Mechanical properties of nanoparticle-based polymer composites
Y Kara, V Acar, MO Seydibeyoglu
Nanoparticle-Based Polymer Composites, 95-108, 2022
22022
Enhancing structural integrity of the continuous fiber-reinforced 3D printed composites by self-reinforcing nanofiber interleaves
Y Kara, G Lubineau
Composites Communications 51, 102042, 2024
12024
Conclusion of Experimental Results and Future Suggestions
Y Kara
Polypropylene Melt-Blown Fiber Mats and Their Composites, 107-116, 2023
12023
Literature Overview
Y Kara
Polypropylene Melt-Blown Fiber Mats and Their Composites, 7-42, 2023
2023
Multiscale Single-Polypropylene Composites: Melt-Blown Polypropylene Fiber Mat Interleaving
Y Kara
Polypropylene Melt-Blown Fiber Mats and Their Composites, 67-85, 2023
2023
Understanding the Structure–Property-Parameter Relationship of Polypropylene Melt-Blown Fibers
Y Kara
Polypropylene Melt-Blown Fiber Mats and Their Composites, 43-66, 2023
2023
Development of Multiwalled Carbon Nanotube Doped Polypropylene Melt-Blown Fiber Mat Interleaved Hierarchical Single-Polypropylene Composites
Y Kara
Polypropylene Melt-Blown Fiber Mats and Their Composites, 87-106, 2023
2023
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