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N. Ebrahimi, Yarong Yang (2011)
An integrated probabilistic model for assessing a nanocomponent's reliabilityJournal of Applied Probability, 48
N. Ebrahimi (2010)
Assessing 2-Dimensional Nanocomponent's Limiting ReliabilityIEEE Transactions on Reliability, 59
Jianfeng Zang, Zhihui Xu, R. Webb, Xiaodong Li (2011)
Electrical self-healing of mechanically damaged zinc oxide nanobelts.Nano letters, 11 1
Yanbo Wang, H. Joyce, Q. Gao, X. Liao, H. Tan, J. Zou, S. Ringer, Zhiwei Shan, C. Jagadish (2011)
Self-healing of fractured GaAs nanowires.Nano letters, 11 4
GA Mansoori (2005)
Principles of Nanotechnology. Molecular‐Based Study of Condensed Matter in Small Systems
N. Ebrahimi (2008)
Assessing a Linear Nanosystem's Limiting Reliability from its ComponentsJournal of Applied Probability, 45
K. Drexler (1992)
Nanosystems: Molecular Machinery, Manufacturing, and Computation
B Bhushan (2007)
Handbook of Nanotechnology
J. Lynch (1999)
ON CONDITIONS FOR MIXTURES OF INCREASING FAILURE RATE DISTRIBUTIONS TO HAVE AN INCREASING FAILURE RATEProbability in the Engineering and Informational Sciences, 13
N. Ebrahimi (2011)
Assessing the reliability function of nanocomponentsJournal of Applied Probability, 48
C. Poole, Frank Jones, F. Owens (2003)
Introduction to Nanotechnology
G. Mansoori (2005)
Principles of nanotechnology
R. Barlow, F. Proschan (1976)
Statistical Theory of Reliability and Life Testing: Probability Models
In nanoscience and nanotechnology, much attention has been given to the dual problem of designing nanocomponents with novel physical properties and how such nanocomponents can be fabricated. Receiving less attention has been the question of the nanocomponent's reliability; how does a nanocomponent fail and how long does a nanocomponent survive under typical operating conditions? High reliability is necessary to guarantee the advancement and utilization of nanocomponents due to the fact that they account for a high proportion of costs of newly designed nanosystems as well as multiscale systems. A nanocomponent is a component that is made of atoms, and its reliability is determined by these atoms.
Applied Stochastic Models in Business and Industry – Wiley
Published: Jan 1, 2014
Keywords: ; ; ; ; ; ;
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