ABU yazarı "Beyaz, Mustafa İlker" için Scopus İndeksli Yayınlar Koleksiyonu listeleme
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An adhesion-dominated rolling Friction regime unique to micro-scale ball bearings
Hanrahan, Brendan M.; Misra, Saswat; Beyaz, Mustafa İlker; Feldman, Jeremy H.; Waits, Christopher M.; Ghodssi, Reza (Tribology Letters, 2014)We demonstrate that micro-scale rolling bearings exhibit friction and wear properties markedly different from their macro-scale counterparts. A microfabricated testing platform uses variable rolling element diameters or ... -
The development and performance characterization of turbine prototypes for a MEMS spirometer
Göreke, Utku; Habibiabad, Sahar; Azgın, Kıvanç; Serinağaoğlu Doğrusöz, Yeşim; Beyaz, Mustafa İlker (IEEE Sensors Journal, 2016)The design, optimization, and performance characterization of turbine prototypes for the development of a Microelectromechanical Systems spirometer is reported. Four different turbines were designed based on large-scale ... -
Hybrid magnetic-piezoelectric energy harvester for power generation around waistline from gait
Beyaz, Mustafa İlker; Tat, Fatih; Özkaya, Kamil Yunus; Özbek, Ramazan (Journal of Electrical Engineering & Technology, 2019)The development of a novel hybrid energy harvester for scavenging power around human waistline is presented. The harvester is composed of mm-scale electromagnetic coils and piezoelectric transducers incorporated on a belt, ... -
An investigation on the electromagnetic design optimization of rotary micromachines with double-layer permanent magnets
Özkaya, Kamil Yunus; Beyaz, Mustafa İlker (Sensors and Actuators A: Physical, 2015)Electromagnetic design optimization of axial-flux rotary micromachines utilizing double-layer permanent magnets is presented and applied to a micro-scale generator/spirometer currently under development. Double-layer magnet ... -
A non-resonant kinetic energy harvester for bioimplantable applications
Beyaz, Mustafa İlker; Baelhadj, Hacene; Habibiabad, Sahar; Adhikari, Shyam; Davoodi, Hossein; Badilita, Vlad (Micromachines, 2018)A linear non-resonant kinetic energy harvester for implantable devices is presented. The design contains a metal platform with permanent magnets, two stators with three-dimensional helical coils for increased power generation, ... -
A sub-cm3 energy harvester for in-vivo biosensors
Baelhadj, Hacene; Adhikari, Shyam; Davoodi, Hossein; Badilita, Vlad; Beyaz, Mustafa İlker (Microelectronic Engineering, 2020)The development of a kinetic energy harvester for in-vivo applications is reported. Consisting of an untethered magnetic platform encased by two stators, the device converts normal body movements into electrical power. A ...