Zobrazeno 1 - 10 of 107 pro vyhledávání: '"Kesari, Haneesh"'
1
Report
Non-classical scaling of strength with size in marine biological fibers
Autor: Kochiyama, Sayaka, Kesari, Haneesh
Intriguing physical phenomena observed in natural materials have inspired the development of several engineering materials with dramatically improved performance. Marine sponge glass fibers, for instance, have attracted interest in recent decades. We
Externí odkaz: http://arxiv.org/abs/2411.10672
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2
Report
A mechanics theory for the exploration of a high-throughput, sterile 3D $\textit{in vitro}$ traumatic brain injury model
Autor: Wan, Yang, González-Cruz, Rafael D., Hoffman-Kim, Diane, Kesari, Haneesh
Brain injuries resulting from mechanical trauma represent an ongoing global public health issue. Several $\textit{in vitro}$ and $\textit{in vivo}$ models for traumatic brain injury (TBI) continue to be developed for delineating the various complex p
Externí odkaz: http://arxiv.org/abs/2308.13409
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3
Report
Functional significance of lamellar architecture in marine sponge fibers: conditions for when splitting a cylindrical tube into an assembly of tubes will decrease its bending stiffness
Autor: Kochiyama, Sayaka, Grossman-Ponemon, Benjamin, Kesari, Haneesh
Numerous ingenious engineering designs and devices have been the product of bio-inspiration. Bone, nacre, and other such stiff structural biological materials (SSBMs) are composites that contain mineral and organic materials interlaid together in lay
Externí odkaz: http://arxiv.org/abs/2303.12189
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4
Report
A finite rotation, small strain 2D elastic head model, with applications in mild traumatic brain injury
Autor: Wan, Yang, Fang, Wenqiang, Carlsen, Rika Wright, Kesari, Haneesh
Rotational head motions have been shown to play a key role in traumatic brain injury. There is great interest in developing methods to rapidly predict brain tissue strains and strain rates resulting from rotational head motions to estimate brain inju
Externí odkaz: http://arxiv.org/abs/2302.06705
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6
Report
Determining rigid body motion from accelerometer data through the square-root of a negative semi-definite tensor, with applications in mild traumatic brain injury
Autor: Wan, Yang, Fawzi, Alice Lux, Kesari, Haneesh
Mild Traumatic Brain Injuries (mTBI) are caused by violent head motions or impacts. Most mTBI prevention strategies explicitly or implicitly rely on a "brain injury criterion". A brain injury criterion takes some descriptor of the head's motion as in
Externí odkaz: http://arxiv.org/abs/2101.10405
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7
Report
Angle-independent optimal adhesion in plane peeling of thin elastic films at large surface roughnesses
Autor: Deng, Weilin, Kesari, Haneesh
Adhesive peeling of a thin elastic film from a substrate is a classic problem in mechanics. However, many of the investigations on this topic to date have focused on peeling from substrates with flat surfaces. In this paper, we study the problem of p
Externí odkaz: http://arxiv.org/abs/2004.07459
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8
Report
An accelerometer-only algorithm for determining the acceleration field of a rigid body, with application in studying the mechanics of mild Traumatic Brain Injury
Autor: Rahaman, Mohammad Masiur, Fang, Wenqiang, Fawzi, Alice Lux, Wan, Yang, Kesari, Haneesh
We present an algorithm for determining the acceleration field of a rigid body using measurements from four tri-axial accelerometers. The acceleration field is an important quantity in bio-mechanics problems, especially in the study of mild Traumatic
Externí odkaz: http://arxiv.org/abs/1911.09556
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9
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10
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