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Soldering mechanisms in materials and coatings for aluminum die casting |
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| Authors: | Eduardo K. Tentardini Augusto O. Kunrath Cesar Aguzzoli Maria Castro John J. Moore Israel J.R. Baumvol |
| Affiliation: | aUniversidade de Caxias do Sul, CCET, 95570-060, Caxias do Sul RS, Brazil bAdvanced Coatings and Surface Engineering Laboratory, Colorado School of Mines. 1500 Illinois St., Golden CO, 80401-1887, USA cUniversidade Federal de Minas Gerais, 31270-901 Belo Horizonte MG, Brazil dUniversidade Federal do Rio Grande do Sul, Porto Alegre RS, Brazil |
| Abstract: | The stability against reaction with aluminum of materials and coatings commonly used in aluminum die casting was investigated. The materials considered here were H13 tool steel and Anviloy® 1150, whereas the coatings were TiN and CrN. Special model, freestanding, multilayered thin film structures were used in this study, in association with complementary differential scanning calorimetry and X-ray diffraction. The nature of the reactions (endo or exothermic) and their onset temperatures up to 1273 K were determined. Based on of these results, some activation energies for the different reactions taking place between aluminum and die material or between aluminum and coatings could be established. Different intermetallic compounds were formed in these reactions, which were identified by post mortem X-ray diffraction analysis. Anviloy® 1150 showed superior stability as compared to H13 tool steel, whereas CrN was more inert than TiN coatings. CrN exhibited the best performance among all materials and coatings considered here, although its practical application relies also on adhesion of the CrN coating to the die bulk material. The results are discussed on the lights of two recent models for soldering in aluminum die casting. |
| Keywords: | 68.60.Dv |
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