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Sharon Kao-Walter
Researcher at Blekinge Institute of Technology
Publications - 56
Citations - 1133
Sharon Kao-Walter is an academic researcher from Blekinge Institute of Technology. The author has contributed to research in topics: Tensile testing & Fracture toughness. The author has an hindex of 11, co-authored 56 publications receiving 938 citations. Previous affiliations of Sharon Kao-Walter include Malmö University & Shanghai Second Polytechnic University.
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A Health-IoT Platform Based on the Integration of Intelligent Packaging, Unobtrusive Bio-Sensor, and Intelligent Medicine Box
Geng Yang,Li Xie,Matti Mäntysalo,Xiaolin Zhou,Zhibo Pang,Li Da Xu,Sharon Kao-Walter,Qiang Chen,Li-Rong Zheng +8 more
TL;DR: The proposed iHome Health-IoT platform seamlessly fuses IoT devices with in-home healthcare services for an improved user experience and service efficiency.
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Design of a terminal solution for integration of in-home health care devices and services towards the Internet-of-Things
TL;DR: A business-technology co-design methodology is proposed for cross-boundary integration of in-home health care devices and services and the quantitative performance analysis and field trials have confirmed the feasibility of the proposed design methodology and solution.
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A Crack Perpendicular to the Bimaterial Interface in Finite Solid
TL;DR: The dislocation simulation method is used in this paper to derive the basic equations for a crack perpendicular to the bimaterial interface in a finite solid and the complete solutions to the problem, including the T stress and the stress intensity factors are obtained.
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Micro-mechanisms of a laminated packaging material during fracture
TL;DR: The micro-mechanisms of fracture in a laminate composed of an aluminium foil and a polymer film are considered in this article, where the laminates as well as the individual layers, with and without premade center-cracks, were tensile tested.
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SEM Observations of a Metal Foil Laminated with a Polymer Film
TL;DR: In this paper, a thin metal foil laminated on a polymer film usually fracture at higher strains than its corresponding freestanding material layer, which is due to the strain localization induced by the created localised neck and plastic deformation in the metal foil.