Reinhold H. Dauskardt
Stanford University
429 Papers
3.5K Citations
Reinhold H. Dauskardt is an academic researcher from Stanford University. The author has contributed to research in topics: Fracture mechanics & Fracture toughness. The author has an hindex of 59, co-authored 409 publications. Previous affiliations of Reinhold H. Dauskardt include University of California, Berkeley & Center for Advanced Materials.
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Papers
Effects of thermal annealing and Si incorporation on bonding structure and fracture properties of diamond-like carbon films
Heon Woong Choi,Heon Woong Choi,David M. Gage,Reinhold H. Dauskardt,Kwang-Ryeol Lee,Kyu Hwan Oh +5 more
TL;DR: In this paper, the effects of thermal annealing and Si incorporation on the structure and properties of diamond-like carbon (DLC) films were investigated using Raman spectroscopy, wafer curvature, nanoindentation, and four-point bend fracture testing.
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Interface Separation in Residually-Stressed Thin-Film Structures
TL;DR: In this paper, the effect of residual stresses on debonding with particular attention to the relationship between the stress state in both ductile and elastic layers and the resulting macroscopic debond energy was explored.
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Quantitative stress mapping in alumina composites by optical fluorescence imaging
TL;DR: In this paper, the authors report on the spatially resolved mapping of local residual and applied stresses in polycrystalline alumina and a variety of Al 2 O 3 SiC w composites.
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Notch strength insensitivity of self-setting hydroxyapatite bone cements.
TL;DR: The strength of the cements was found to be surprisingly insensitive to the presence of the notches over the range of notch radii examined, and a fracture statistics model incorporating a Weibull statistical approach was employed to rationalize the observed notch insensitivity.
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Role of sunscreen formulation and photostability to protect the biomechanical barrier function of skin.
TL;DR: The protection of individual sunscreen components vary over a range of UVB dosages, and components can even cause alteration of the biomechanical barrier properties of human stratum corneum before UV exposure, indicating robust protection from UV damage.
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