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Agata Czernuszewicz
Agata Czernuszewicz
Ames Laboratory, Iowa State University
Verified email at ameslab.gov - Homepage
Title
Cited by
Cited by
Year
Multicaloric effect: Toward a breakthrough in cooling technology
A Czernuszewicz, J Kaleta, D Lewandowski
Energy conversion and management 178, 335-342, 2018
442018
Low-force compressive and tensile actuation for elastocaloric heat pumps
A Czernuszewicz, L Griffith, J Slaughter, V Pecharsky
Applied Materials Today 19, 100557, 2020
362020
Compact and efficient elastocaloric heat pumps—Is there a path forward?
J Slaughter, A Czernuszewicz, L Griffith, V Pecharsky
Journal of Applied Physics 127 (19), 2020
242020
A test stand to study the possibility of using magnetocaloric materials for refrigerators
A Czernuszewicz, J Kaleta, M Królewicz, D Lewandowski, R Mech, ...
International journal of refrigeration 37, 72-77, 2014
232014
CaloriSMART: Small-scale test-stand for rapid evaluation of active magnetic regenerator performance
L Griffith, A Czernuszewicz, J Slaughter, V Pecharsky
Energy conversion and management 199, 111948, 2019
162019
Unlocking large compressive strains in thin active elastocaloric layers
A Czernuszewicz, L Griffith, A Scott, J Slaughter, V Pecharsky
Applied Thermal Engineering 190, 116850, 2021
152021
Experimental study of the effect of regenerator bed length on the performance of a magnetic cooling system
A Czernuszewicz, J Kaleta, D Kołosowski, D Lewandowski
International Journal of Refrigeration 97, 49-55, 2019
142019
Active magnetic regenerative cooling with smaller magnets
L Griffith, A Czernuszewicz, J Slaughter, V Pecharsky
International Journal of Refrigeration 125, 44-51, 2021
122021
An idea of the test stand for studies of magnetobarocaloric materials properties and possibilities of their application
A Czernuszewicz, J Kaleta, D Lewandowski, M Przybylski
physica status solidi (c) 11 (5‐6), 995-999, 2014
112014
Toward efficient elastocaloric systems: Predicting material thermal properties with high fidelity
LD Griffith, BP Alho, A Czernuszewicz, PO Ribeiro, J Slaughter, ...
Acta Materialia 217, 117162, 2021
52021
Study into the magnetic field for a magnetocaloric cooling system with the use of magnetovision
A Czernuszewicz, J Kaleta, D Lewandowski, P Wiewiórski
Transactions of FAMENA 37 (4), 55-64, 2013
42013
A concept of the test stand for magnetocaloric effect investigations
A Czernuszewicz, J Kaleta, M Królewicz, M Liberda
Proceedings of the 28th Danubia-Adria-Symposium on Advances in Experimental …, 2011
22011
High-field magnetic and magnetocaloric properties of pseudo-binary Er1− xHoxNi2 (x= 0.25–0.75) solid solutions
J Ćwik, Y Koshkidko, B Weise, A Czernuszewicz
Journal of Alloys and Compounds 968, 172297, 2023
12023
Balancing performance of active magnetic regenerators: a comprehensive experimental study of aspect ratio, particle size, and operating conditions
A Czernuszewicz, L Griffith, J Slaughter, V Pecharsky
Journal of Physics: Energy 5 (2), 024008, 2023
12023
Zastosowanie skanerów wielkogabarytowych 3D do rekonstrukcji urządzeń technicznych
A CZERNUSZEWICZ, T Będza
Mechanik 83 (2), 138-138, 2010
12010
Rapid solidified ductile Cu-Al-Mn ribbon and its elastocaloric potential
G Ouyang, C Pan, B Hilliard, A Czernuszewicz, J Slaughter, J Cui
Journal of Physics: Energy 5 (3), 034007, 2023
2023
Improving Performance of Active Magnetocaloric Regenerators
A Czernuszewicz, L Griffith, J Slaughter, V Pecharsky
VIZSGÁLATI MÓDSZEREK TESTING METHODS
K ELRENDEZÉS, MAGOK VIZSGÁLATÁRA, A CZERNUSZEWICZ, ...
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