Boston University 2012 - 2015
Doctor of Law (J.D.), Intellectual Property Law
University of Illinois at Urbana-Champaign 2008 - 2012
Bachelor of Science (B.S.), Electrical and Electronics Engineering
Microsoft Office Customer Service Microsoft Excel Leadership Microsoft Word Research Microsoft Powerpoint Public Speaking Social Media Marketing Accounting Finance Economics Real Estate
Ali Israr - Monroeville PA, US Cheng Xu - Chicago IL, US Ivan Poupyrev - Pittsburgh PA, US Olivier Bau - Pittsburgh PA, US Seung-Chan Kim - Daejeon, KR
Assignee:
DISNEY ENTERPRISES, INC. - Burbank CA
International Classification:
G06F 3/041
US Classification:
345173
Abstract:
An image capturing device may be combined with a touch screen to generate a tactile map of an environment. The image capturing device captures an image of the environment which is then processed and used to correlate a point of user contact on a touch screen to a particular tactile sensation. The touch screen may then generate an electric signal (i.e., tactile feedback) corresponding to the tactile sensation which is felt by a user contacting the touch screen. By using the electrical signal as tactile feedback (e.g., electrovibration), the user may determine relative spatial locations of the objects in the environment, the objects' physical characteristics, the distance from the objects to the image capturing device, and the like.
This disclosure describes various configurations and components for bimetallic and trimetallic claddings for use as a wall element separating nuclear material from an external environment. The cladding materials are suitable for use as cladding for nuclear fuel elements, particularly for fuel elements that will be exposed to sodium or other coolants or environments with a propensity to react with the nuclear fuel.
This disclosure describes various configurations and components for bimetallic and trimetallic claddings for use as a wall element separating nuclear material from an external environment. The cladding materials are suitable for use as cladding for nuclear fuel elements, particularly for fuel elements that will be exposed to sodium or other coolants or environments with a propensity to react with the nuclear fuel.
This disclosure describes various configurations and components for bimetallic and trimetallic claddings for use as a wall element separating nuclear material from an external environment. The cladding materials are suitable for use as cladding for nuclear fuel elements, particularly for fuel elements that will be exposed to sodium or other coolants or environments with a propensity to react with the nuclear fuel.
- Bellevue WA, US Ryan Latta - Bellevue WA, US Samuel J. Miller - Seattle WA, US Gary Povirk - Niskayuna NY, US Mark R. Werner - Bellevue WA, US Cheng Xu - Kirkland WA, US
Assignee:
TERRAPOWER, LLC - Bellevue WA
International Classification:
G21D 3/00 G21C 3/04
Abstract:
A computerized system for modeling reactor fuel element and fuel design to determine the thermo-mechanical performance thereof includes a processor coupled to memory, the memory configuring the processor to execute a fuel element analysis and an output configured to communicate data that describes the thermo-mechanical performance of the fuel element and fuel design based on the fuel element performance analysis. The processor is configured to estimate the mechanical behavior of a fuel by creating separate variables for the open and closed porosity components, conducting a routine for the open and closed porosity components that processes the current state of the fuel and updates the current state and forces of each of the open and closed porosity components, and combining the updates for the current state and forces according to a weighting; and estimate the creep and swelling behavior of a cladding.