New developments with the SEED technology

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Proceedings titleDiffusion and Defect Data Pt.B: Solid State Phenomena
Conference12th International Conference on Semi-Solid Processing of Alloys and Composites, S2P 2012, 8 October 2012 through 11 October 2012, Cape Town
Pages373378; # of pages: 6
SubjectCast alloys; Foundry alloys; Foundry industries; High quality; High strength; Metal matrix composites; Optimization of process parameters; Overall equipment efficiency; Process capabilities; Process reliability; Rheocasting process; SEED process; Semi solid casting; Semi-solid forming; Semi-solid slurry; System components; Wrought alloys; Agriculture; Foundries; Metallic matrix composites; Optimization; Rheocasting; Slurries; High strength alloys
AbstractThe SEED technology is a commercially available rheocasting process used in the production of high quality semi-solid slurries. The process, which is currently used in the foundry industry, is still actively developed and fully supported by a team of scientists, engineers and technicians. In the later years, works were conducted toward optimizing the process and equipment. At first, the focus was on developing a simplified version of the SEED process to eliminate the so-called "drainage" phase while preserving the prime quality of the slurry produced. Improvement of some system components and integration of new features were also targeted to secure the overall equipment efficiency (OEE) and increase the process reliability. This work, backed with the optimization of process parameters and comprehensive techniques adapted for semi-solid casting, led to the consolidation and even improvement of the properties of the parts produced for common foundry alloys as 356/357 and 319. Furthermore, the non-drained SEED version was applied to the validation of the process capabilities for uncommon cast alloys, with works on AA6061 wrought alloys, high strength 206 cast alloys and Duralcan metal matrix composites. The results confirmed that the SEED process can efficiently be used in non-drained mode and achieve the same quality of slurry as the drained-mode version originally developed. © (2013) Trans Tech Publications, Switzerland.
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AffiliationNational Research Council Canada (NRC-CNRC)
Peer reviewedYes
NPARC number21270693
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Record identifier8882e9b0-cc15-4bf7-92af-8061b87a833c
Record created2014-02-17
Record modified2016-05-09
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