The Main Mechanical Structure of Large Vacuum Vessel Stress analysis and optimization

Abstract Helium Cooled Pebble Bed Breeding Blanket (HCPB BB) is a kind of concept for the European demonstration fusion reactor (DEMO). The blanket attachment system plays an important role in the mechanical connection of the BB and vacuum vessel. Typically, the mechanical and thermal loads should meet the requirement to avoid collapse of the system with off-normal conditions, e.g., under ex-vessel Loss of Coolant Accident (LOCA. This paper investigates the loading requirement corresponding to the maximum stress that can sustain to avoid the LOCA condition. Firstly, a model of the BB is constructed using SolidWorks. Then, stress analysis is carried out based on the cross section of the blanket. Through simulation, the critical condition for the LOCA case and the maximum stress value for the model are obtained. According to the relevant size dimension from the reference, the blanket’s cross section is drawn, and one can get the stress field under the ex-vessel LOCA through stress analysis. The stress distribution under the ex-vessel LOCA condition is simulated to find out the maximum stress field that the blanket can sustain through this paper. The significance is to predict the possible conditions leading to an accident and find possible methods to avoid them.

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ITER VACUUM VESSEL DYNAMIC STRESS ANALYSIS OF A DISRUPTION**Based on work performed at Oak Ridge National Laboratory, managed for the U.S. Department of Energy under contract DE-AC05-84OR21400 with Martin Marietta Energy Systems, Inc.

Fusion Technology 1994 ◽

10.1016/b978-0-444-82220-8.50165-5 ◽

1995 ◽

pp. 791-794

Author(s):

B.W. Riemer ◽

D.L. Conner ◽

D.J. Strickler ◽

D.E. Williamson

Keyword(s):

Stress Analysis ◽

Dynamic Stress ◽

National Laboratory ◽

Energy Systems ◽

Department Of Energy ◽

Vacuum Vessel ◽

Oak Ridge ◽

Oak Ridge National Laboratory ◽

Dynamic Stress Analysis ◽

The U.S

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Physical Application of Mechanical Parts and Components Simulate in Receivable Auxiliary Multifunction Mechanical Hand and Claw

Journal of Physics Conference Series ◽

10.1088/1742-6596/2083/2/022074 ◽

2021 ◽

Vol 2083 (2) ◽

pp. 022074

Author(s):

Yuzhuo Yang

Keyword(s):

Stress Analysis ◽

Structure Design ◽

Office Work ◽

Mechanical Parts ◽

Mechanical Structure ◽

Overall Design ◽

Design Scheme ◽

Mechanical Hand ◽

Part Structure ◽

And Control

Abstract Based on the analysis of current office work status and office robots, this paper proposes a design scheme of intelligent mechanical gripper which can transfer data and move objects independently to assist daily office work. It is proposed to design mechanical structure, including mechanism motion design and part structure design, and to use Autodesk Inventor to design and simulate mechanical parts and components. Dimensional and strength checks are carried out on key components, and stress analysis is simulated by using stress analysis module included in Autodesk Inventor. Finally, the mechanical structure design scheme and control system design scheme for the mechanical gripper are proposed. The overall design mainly centers on the functions expected to be completed, and innovates different organizations in combination to achieve the intended objective.

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