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Fusion Science and Technology Volume 67, 2015 - Issue 1
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Technical Paper

Thermomechanical Analysis for an All-Tungsten ARIES Divertor

James P. BlanchardUniversity of Wisconsin, 1500 Engineering Drive, Madison, Wisconsin 53706
&
Carl MartinUniversity of Wisconsin, 1500 Engineering Drive, Madison, Wisconsin 53706
Pages 158-166 | Published online: 23 Mar 2017

References

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  • X. R. WANG et al., “Design Optimization of High-Performance Helium-Cooled Divertor Plate Concept,” Fusion Sci. Technol., 56, 1023 (2009); http://dx.doi.org/10.13182/FST09-10.
  • X. R. WANG et al., “Recent Improvements of the Helium-Cooled W-Based Divertor for Fusion Power Plants,” Fusion Eng. Des., 82, 732 (2012); http://dx.doi.org/10.1016/j.fusengdes.2012.02.012.
  • X. R. WANG, S. MALANG, and M. S. TILLACK, “High Performance Divertor Target Plate for a Power Plant: A Combination of Plate and Finger Concepts,” Fusion Sci. Technol., 60, 218 (2011); http://dx.doi.org/10.13182/FST10-237.
  • D. NAVAEI et al., “Elastic-Plastic Analysis of the Transition Joint for a High Performance Divertor Target Plate,” Fusion Sci. Technol., 60, 233 (2011); http://dx.doi.org/10.13182/FST10-221.
  • X. R. WANG, S. MALANG, and A. R. RAFFRAY, “Transient Thermal and Stress Response of a Helium-Cooled Tungsten Plate-Type Divertor,” Proc. 23rd IEEE/NPSS Symp. Fusion Engineering (SOFE 2009), San Diego, California, June 1–5, 2009, IEEE (2009).
  • A. R. RAFFRAY, S. MALANG, and X. R. WANG, “Optimizing the Overall Configuration of a He-Cooled W-Alloy Divertor for a Power Plant,” Fusion Eng. Des., 84, 1553 (2009); http://dx.doi.org/10.1016/j.fusengdes.2008.12.069.
  • ITER Materials Properties Handbook (MPH), ITER Doc. G 74 MA 16.
  • M. FALESCHINI et al., “Fracture Toughness Investigations of Tungsten Alloys and SPD Tungsten Alloys,” J Nucl. Mater., 367, 800 (2007); http://dx.doi.org/10.1016/j.jnucmat.2007.03.079.
  • D. RUPP and S. M. WEYGAND, “Anisotropic Fracture Behaviour and Brittle-to-Ductile Transition of Polycrystalline Tungsten,” Philos. Mag., 90, 4055 (2010); http://dx.doi.org/10.1080/14786435.2010.504198.
  • S. L. ROBINSON and O. D. SHERBY, “Mechanical Behavior of Polycrystalline Tungsten at Elevated Temperature,” Acta Metall. Mater., 17, 109 (1969); http://dx.doi.org/10.1016/0001-6160(69)90132-1.
  • J. W. PUGH, “Tensile and Creep Properties of Tungsten at Elevated Temperatures,” Proc. ASTM, 57, 1 (1957).
  • C. E. KESSEL, M. S. TILLACK, and J. P. BLANCHARD, “The Evaluation of the Heat Loading from Steady, Transient and Off-Normal Conditions in ARIES Power Plants,” Fusion Sci. Technol., 64, 440 (2013); http://dx.doi.org/10.13182/FST12-538.
  • J. LINKE et al., “Performance of Different Tungsten Grades Under Transient Thermal Loads,” Nucl. Fusion, 51, 073017 (2011); http://dx.doi.org/10.1088/0029-5515/51/7/073017.

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