P
Peter B. Nagy
Researcher at University of Cincinnati
Publications - 332
Citations - 6626
Peter B. Nagy is an academic researcher from University of Cincinnati. The author has contributed to research in topics: Ultrasonic sensor & Eddy current. The author has an hindex of 37, co-authored 331 publications receiving 5953 citations. Previous affiliations of Peter B. Nagy include Hungarian Academy of Sciences & Imperial College London.
Papers
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Journal ArticleDOI
Fatigue damage assessment by nonlinear ultrasonic materials characterization
TL;DR: In this article, the second-order acousto-elastic coefficient (SOC) was measured in a variety of materials including plastics, metals, composites and adhesives.
Journal ArticleDOI
Are there any predictive factors for successful testicular sperm recovery in azoospermic patients
Herman Tournaye,G. Verheyen,Peter B. Nagy,Filippo Ubaldi,Annieta Goossens,Sherman J. Silber,A. Van Steirteghem,Paul Devroey +7 more
TL;DR: In this article, the most frequently available parameters for clinical decision-making in azoospermic patients: (i) presence of at least one single spermatozoon in preliminary semen analysis; (ii) maximum testicular volume; (iii) serum follicle stimulating hormone (FSH); and (iv) presence in the histology of a randomly-taken testicular biopsy.
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Ultrasonic classification of imperfect interfaces
TL;DR: In this paper, it is shown that the ratio between the normal and transverse interfacial stiffnesses can be used to classify the interface imperfections, e.g., kissing, partial, and slip bonds.
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Revolutionizing biodegradable metals
Yeoheung Yun,Zhongyun Dong,Namheon Lee,Yijun Liu,Dingchuan Xue,Xuefei Guo,Julia Kuhlmann,Amos Doepke,H. Brian Halsall,William R. Heineman,Surya Sundaramurthy,Mark J. Schulz,Zhangzhang Yin,Vesselin Shanov,Douglas Hurd,Peter B. Nagy,Weifeng Li,Curtis Fox +17 more
TL;DR: Miniaturized and nanotechnology-based sensors that measure the activities of the degradation process and the formation of tissue are discussed for use with in vitro and in vivo experiments and can provide new knowledge about biodegradable interfaces and how to actively control the interface.
Journal ArticleDOI
The use of non-collinear mixing for nonlinear ultrasonic detection of plasticity and fatigue.
TL;DR: Measurements made on a sample after plastic deformation and on a samples subjected to low-cycle fatigue show that the non-collinear technique is indeed capable of measuring changes in both, and is therefore a viable inspection technique for these types of material degradation.