1. Dynamics Simulations of a Graphite Block Under Longitudinal Impact
- Author
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Dong Ok Kim, Gyeongho Kim, Woo-Seok Choi, Jae Man Noh, and Ji Ho Kang
- Subjects
Engineering ,Work (thermodynamics) ,Materials science ,Contact behavior ,business.industry ,Mechanical Engineering ,Constraint (computer-aided design) ,Energy Engineering and Power Technology ,Aerospace Engineering ,Structural integrity ,Structural engineering ,Time step ,Degrees of freedom (mechanics) ,Seismic analysis ,Fuel Technology ,Nuclear Energy and Engineering ,Graphite ,business ,Block (data storage) - Abstract
Graphite blocks are important core components of the high temperature gas-cooled reactor. As these blocks are simply stacked in array, collisions among neighboring components may occur during earthquakes or accidents. Thus, it is important to develop a reliable seismic model of the stacked graphite blocks and have them designed to maintain their structural integrity during the anticipated occurrences. Various aspects involved in modeling and calculating impact-contact dynamics can affect the resulting behavior of the graphite block. These include mesh size, time step, contact behavior, mechanical constraint formulation of impact-contact analysis, etc. This work is dedicated to perform comparative studies and the effects of these parameters will be identified. The insights obtained through these studies will help build a realistic impact-contact model of the graphite block from which a lumped or reduced dynamics model will be developed for the seismic analysis of the reactor including these graphite components.
- Published
- 2010
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