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  • Source: Wear. Unidade: EP

    Subjects: FADIGA DOS MATERIAIS, FERROVIAS, AÇO

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      PEREIRA, Henrique Boschetti et al. Influence of the microstructure on the rolling contact fatigue of rail steel: Spheroidized pearlite and fully pearlitic microstructure analysis. Wear, v. 498-499, n. Ju, p. 11 , 2022Tradução . . Disponível em: https://doi.org/10.1016/j.wear.2022.204299. Acesso em: 12 ago. 2022.
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      Pereira, H. B., Alves, L. H. D., Rezende, A. B., Mei, P. R., & Goldenstein, H. (2022). Influence of the microstructure on the rolling contact fatigue of rail steel: Spheroidized pearlite and fully pearlitic microstructure analysis. Wear, 498-499( Ju), 11 . doi:10.1016/j.wear.2022.204299
    • NLM

      Pereira HB, Alves LHD, Rezende AB, Mei PR, Goldenstein H. Influence of the microstructure on the rolling contact fatigue of rail steel: Spheroidized pearlite and fully pearlitic microstructure analysis [Internet]. Wear. 2022 ; 498-499( Ju): 11 .[citado 2022 ago. 12 ] Available from: https://doi.org/10.1016/j.wear.2022.204299
    • Vancouver

      Pereira HB, Alves LHD, Rezende AB, Mei PR, Goldenstein H. Influence of the microstructure on the rolling contact fatigue of rail steel: Spheroidized pearlite and fully pearlitic microstructure analysis [Internet]. Wear. 2022 ; 498-499( Ju): 11 .[citado 2022 ago. 12 ] Available from: https://doi.org/10.1016/j.wear.2022.204299
  • Source: Ceramics International. Unidade: EP

    Subjects: SINTERIZAÇÃO, ATMOSFERA

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      MOLISANI, André Luiz e GOLDENSTEIN, Hélio e YOSHIMURA, Humberto Naoyuki. Second-phase evolution and densification behavior of AlN with CaO–Y2O3–C multicomponent additive system. Ceramics International, v. 48, p. 6615-6626, 2022Tradução . . Acesso em: 12 ago. 2022.
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      Molisani, A. L., Goldenstein, H., & Yoshimura, H. N. (2022). Second-phase evolution and densification behavior of AlN with CaO–Y2O3–C multicomponent additive system. Ceramics International, 48, 6615-6626. doi:https://doi.org/10.1016/j.ceramint.2021.11.211
    • NLM

      Molisani AL, Goldenstein H, Yoshimura HN. Second-phase evolution and densification behavior of AlN with CaO–Y2O3–C multicomponent additive system. Ceramics International. 2022 ; 48 6615-6626.[citado 2022 ago. 12 ]
    • Vancouver

      Molisani AL, Goldenstein H, Yoshimura HN. Second-phase evolution and densification behavior of AlN with CaO–Y2O3–C multicomponent additive system. Ceramics International. 2022 ; 48 6615-6626.[citado 2022 ago. 12 ]
  • Source: Soldagem e Inspeção. Unidade: EP

    Subjects: MÉTODO DOS ELEMENTOS FINITOS, SIMULAÇÃO, SOLDAGEM, TENSÃO RESIDUAL

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      PEREIRA, Henrique Boschetti et al. Evaluation of the Effect of Heat Input and Cooling Rate of Rail Flash-Butt Welding using Finite Element Method Simulation. Soldagem e Inspeção, v. 27:e2701, p. 18 , 2022Tradução . . Disponível em: https://doi.org/10.1590/0104-9224/SI27.01. Acesso em: 12 ago. 2022.
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      Pereira, H. B., Ariza Echeverri, E. A., Alves, L. H. D., & Goldenstein, H. (2022). Evaluation of the Effect of Heat Input and Cooling Rate of Rail Flash-Butt Welding using Finite Element Method Simulation. Soldagem e Inspeção, 27:e2701, 18 . doi:10.1590/0104-9224/SI27.01
    • NLM

      Pereira HB, Ariza Echeverri EA, Alves LHD, Goldenstein H. Evaluation of the Effect of Heat Input and Cooling Rate of Rail Flash-Butt Welding using Finite Element Method Simulation [Internet]. Soldagem e Inspeção. 2022 ;27:e2701 18 .[citado 2022 ago. 12 ] Available from: https://doi.org/10.1590/0104-9224/SI27.01
    • Vancouver

      Pereira HB, Ariza Echeverri EA, Alves LHD, Goldenstein H. Evaluation of the Effect of Heat Input and Cooling Rate of Rail Flash-Butt Welding using Finite Element Method Simulation [Internet]. Soldagem e Inspeção. 2022 ;27:e2701 18 .[citado 2022 ago. 12 ] Available from: https://doi.org/10.1590/0104-9224/SI27.01
  • Source: Tecnologia em Metalurgia, Materiais e Mineração. Unidade: EP

    Subjects: CINÉTICA, FERRO FUNDIDO, FERRO FUNDIDO CINZENTO, ALTA TEMPERATURA

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      OGATA, Paulo Henrique e GUESSER, Wilson Luiz e GOLDENSTEIN, Hélio. Secondary graphitization kinetics in a gray cast iron. Tecnologia em Metalurgia, Materiais e Mineração, v. 19, p. 1-8, 2022Tradução . . Disponível em: https://doi.org/10.4322/2176-1523.20222643. Acesso em: 12 ago. 2022.
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      Ogata, P. H., Guesser, W. L., & Goldenstein, H. (2022). Secondary graphitization kinetics in a gray cast iron. Tecnologia em Metalurgia, Materiais e Mineração, 19, 1-8. doi:10.4322/2176-1523.20222643
    • NLM

      Ogata PH, Guesser WL, Goldenstein H. Secondary graphitization kinetics in a gray cast iron [Internet]. Tecnologia em Metalurgia, Materiais e Mineração. 2022 ; 19 1-8.[citado 2022 ago. 12 ] Available from: https://doi.org/10.4322/2176-1523.20222643
    • Vancouver

      Ogata PH, Guesser WL, Goldenstein H. Secondary graphitization kinetics in a gray cast iron [Internet]. Tecnologia em Metalurgia, Materiais e Mineração. 2022 ; 19 1-8.[citado 2022 ago. 12 ] Available from: https://doi.org/10.4322/2176-1523.20222643
  • Source: Metals. Unidade: EP

    Subjects: CARBONO, DIFRAÇÃO POR RAIOS X, AÇO DE ALTA RESISTÊNCIA, TÊMPERA

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      ARIZA ECHEVERRI, Edwan Anderson et al. In Situ Synchrotron X-ray Diffraction and Microstructural Studies on Cold and Hot Stamping Combined with Quenching & Partitioning Processing for Development of Third-Generation Advanced High Strength Steels. Metals, v. 12, n. 2, p. 1-47, 2022Tradução . . Disponível em: https://doi.org/10.3390/met12020174. Acesso em: 12 ago. 2022.
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      Ariza Echeverri, E. A., Nishikawa, A. S., Masoumi, M., Pereira, H. B., Marulanda, N. G., Rossy, A. M., et al. (2022). In Situ Synchrotron X-ray Diffraction and Microstructural Studies on Cold and Hot Stamping Combined with Quenching & Partitioning Processing for Development of Third-Generation Advanced High Strength Steels. Metals, 12( 2), 1-47. doi:10.3390/met12020174
    • NLM

      Ariza Echeverri EA, Nishikawa AS, Masoumi M, Pereira HB, Marulanda NG, Rossy AM, Goldenstein H, Tschiptschin AP. In Situ Synchrotron X-ray Diffraction and Microstructural Studies on Cold and Hot Stamping Combined with Quenching & Partitioning Processing for Development of Third-Generation Advanced High Strength Steels [Internet]. Metals. 2022 ; 12( 2): 1-47.[citado 2022 ago. 12 ] Available from: https://doi.org/10.3390/met12020174
    • Vancouver

      Ariza Echeverri EA, Nishikawa AS, Masoumi M, Pereira HB, Marulanda NG, Rossy AM, Goldenstein H, Tschiptschin AP. In Situ Synchrotron X-ray Diffraction and Microstructural Studies on Cold and Hot Stamping Combined with Quenching & Partitioning Processing for Development of Third-Generation Advanced High Strength Steels [Internet]. Metals. 2022 ; 12( 2): 1-47.[citado 2022 ago. 12 ] Available from: https://doi.org/10.3390/met12020174
  • Source: Materials Characterization. Unidade: EP

    Subjects: DIFRAÇÃO POR RAIOS X, AÇO

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      ESCOBAR, Julian D. et al. Response of ferrite, bainite, martensite, and retained austenite to a fire cycle in a fireresistant steel. Materials Characterization, v. 182, p. 13 , 2021Tradução . . Disponível em: https://doi.org/10.1016/j.matchar.2021.111567. Acesso em: 12 ago. 2022.
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      Escobar, J. D., Delfino, P. M., Ariza Echeverri, E. A., Carvalho, F. M., Schell, N., Stark, A., et al. (2021). Response of ferrite, bainite, martensite, and retained austenite to a fire cycle in a fireresistant steel. Materials Characterization, 182, 13 . doi:10.1016/j.matchar.2021.111567
    • NLM

      Escobar JD, Delfino PM, Ariza Echeverri EA, Carvalho FM, Schell N, Stark A, Rodrigues TA, Oliveira JP, Ávila JA, Goldenstein H, Tschiptschin AP. Response of ferrite, bainite, martensite, and retained austenite to a fire cycle in a fireresistant steel [Internet]. Materials Characterization. 2021 ; 182 13 .[citado 2022 ago. 12 ] Available from: https://doi.org/10.1016/j.matchar.2021.111567
    • Vancouver

      Escobar JD, Delfino PM, Ariza Echeverri EA, Carvalho FM, Schell N, Stark A, Rodrigues TA, Oliveira JP, Ávila JA, Goldenstein H, Tschiptschin AP. Response of ferrite, bainite, martensite, and retained austenite to a fire cycle in a fireresistant steel [Internet]. Materials Characterization. 2021 ; 182 13 .[citado 2022 ago. 12 ] Available from: https://doi.org/10.1016/j.matchar.2021.111567
  • Source: International Journal of Metalcasting. Unidade: EP

    Subjects: AUSTÊMPERA, CINÉTICA

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    • ABNT

      PEREIRA, Henrique Boschetti et al. Effect of the Austenitization Route on the Bainitic Reaction Kinetics and Tensile Properties of an Alloyed Austempered Ductile Iron. International Journal of Metalcasting, v. 15. p.1442-1455, 2021Tradução . . Disponível em: https://doi.org/10.1007/s40962-020-00569-1. Acesso em: 12 ago. 2022.
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      Pereira, H. B., Tschiptschin, A. P., Goldenstein, H., & Azevedo, C. R. de F. (2021). Effect of the Austenitization Route on the Bainitic Reaction Kinetics and Tensile Properties of an Alloyed Austempered Ductile Iron. International Journal of Metalcasting, 15. p.1442-1455. doi:10.1007/s40962-020-00569-1
    • NLM

      Pereira HB, Tschiptschin AP, Goldenstein H, Azevedo CR de F. Effect of the Austenitization Route on the Bainitic Reaction Kinetics and Tensile Properties of an Alloyed Austempered Ductile Iron [Internet]. International Journal of Metalcasting. 2021 ; 15. p.1442-1455[citado 2022 ago. 12 ] Available from: https://doi.org/10.1007/s40962-020-00569-1
    • Vancouver

      Pereira HB, Tschiptschin AP, Goldenstein H, Azevedo CR de F. Effect of the Austenitization Route on the Bainitic Reaction Kinetics and Tensile Properties of an Alloyed Austempered Ductile Iron [Internet]. International Journal of Metalcasting. 2021 ; 15. p.1442-1455[citado 2022 ago. 12 ] Available from: https://doi.org/10.1007/s40962-020-00569-1
  • Source: Journal of Materials Research and Technology. Unidade: EP

    Subjects: AÇO, CRISTALOGRAFIA

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      RAMIREZ, Mario F.G. et al. Effects of different cooling rates on the microstructure, crystallographic features, and hydrogen induced cracking of API X80 pipeline steel. Journal of Materials Research and Technology, v. 14, p. Se-Oct., 2021Tradução . . Disponível em: https://doi.org/10.1016/j.jmrt.2021.07.060. Acesso em: 12 ago. 2022.
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      Ramirez, M. F. G., Hernández, J. W. C., Ladino, D. H., Masoumi, M., & Goldenstein, H. (2021). Effects of different cooling rates on the microstructure, crystallographic features, and hydrogen induced cracking of API X80 pipeline steel. Journal of Materials Research and Technology, 14, Se-Oct. doi:10.1016/j.jmrt.2021.07.060
    • NLM

      Ramirez MFG, Hernández JWC, Ladino DH, Masoumi M, Goldenstein H. Effects of different cooling rates on the microstructure, crystallographic features, and hydrogen induced cracking of API X80 pipeline steel [Internet]. Journal of Materials Research and Technology. 2021 ; 14 Se-Oct.[citado 2022 ago. 12 ] Available from: https://doi.org/10.1016/j.jmrt.2021.07.060
    • Vancouver

      Ramirez MFG, Hernández JWC, Ladino DH, Masoumi M, Goldenstein H. Effects of different cooling rates on the microstructure, crystallographic features, and hydrogen induced cracking of API X80 pipeline steel [Internet]. Journal of Materials Research and Technology. 2021 ; 14 Se-Oct.[citado 2022 ago. 12 ] Available from: https://doi.org/10.1016/j.jmrt.2021.07.060
  • Source: Metallurgical and Materials Transactions A - Physical Metallurgy and Materials Science. Unidade: EP

    Subjects: DESGASTE, PROPRIEDADES DOS MATERIAIS, RESISTÊNCIA, AÇO

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      MASOUMI, Mohammad et al. Improving the Mechanical Properties and Wear Resistance of a Commercial Pearlitic Rail Steel Using a Two-Step Heat Treatment. Metallurgical and Materials Transactions A - Physical Metallurgy and Materials Science, p. Se, 2021Tradução . . Disponível em: https://doi.org/10.1007/s11661-021-06432-0. Acesso em: 12 ago. 2022.
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      Masoumi, M., Tressia, G., Centeno, D. M. A., & Goldenstein, H. (2021). Improving the Mechanical Properties and Wear Resistance of a Commercial Pearlitic Rail Steel Using a Two-Step Heat Treatment. Metallurgical and Materials Transactions A - Physical Metallurgy and Materials Science, Se. doi:10.1007/s11661-021-06432-0
    • NLM

      Masoumi M, Tressia G, Centeno DMA, Goldenstein H. Improving the Mechanical Properties and Wear Resistance of a Commercial Pearlitic Rail Steel Using a Two-Step Heat Treatment [Internet]. Metallurgical and Materials Transactions A - Physical Metallurgy and Materials Science. 2021 ; Se.[citado 2022 ago. 12 ] Available from: https://doi.org/10.1007/s11661-021-06432-0
    • Vancouver

      Masoumi M, Tressia G, Centeno DMA, Goldenstein H. Improving the Mechanical Properties and Wear Resistance of a Commercial Pearlitic Rail Steel Using a Two-Step Heat Treatment [Internet]. Metallurgical and Materials Transactions A - Physical Metallurgy and Materials Science. 2021 ; Se.[citado 2022 ago. 12 ] Available from: https://doi.org/10.1007/s11661-021-06432-0
  • Source: Materials Research. Unidade: EP

    Subjects: FERROVIAS, TRILHOS, DESGASTE

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      CHAVES, Ana Paula Gonçalves et al. Effect of the microstructure on the wear resistance of a pearlitic steel. Materials Research, v. 23, n. 2, 2020Tradução . . Disponível em: https://www.scielo.br/pdf/mr/v23n2/1516-1439-mr-23-2-e20190605.pdf. Acesso em: 12 ago. 2022.
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      Chaves, A. P. G., Centeno, D. M. A., Masoumi, M., & Goldenstein, H. (2020). Effect of the microstructure on the wear resistance of a pearlitic steel. Materials Research, 23( 2). doi:10.1590/1980-5373-mr-2019-0605
    • NLM

      Chaves APG, Centeno DMA, Masoumi M, Goldenstein H. Effect of the microstructure on the wear resistance of a pearlitic steel [Internet]. Materials Research. 2020 ;23( 2):[citado 2022 ago. 12 ] Available from: https://www.scielo.br/pdf/mr/v23n2/1516-1439-mr-23-2-e20190605.pdf
    • Vancouver

      Chaves APG, Centeno DMA, Masoumi M, Goldenstein H. Effect of the microstructure on the wear resistance of a pearlitic steel [Internet]. Materials Research. 2020 ;23( 2):[citado 2022 ago. 12 ] Available from: https://www.scielo.br/pdf/mr/v23n2/1516-1439-mr-23-2-e20190605.pdf
  • Source: Industrial Lubrication and Tribology. Unidade: EP

    Subjects: DESGASTE, TRILHOS, TRIBOLOGIA

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      ALVES, Luiz Henrique Dias et al. Metallurgical and tribological aspects for squat formation in the aluminothermic weld HAZ edges of rails welded using aluminothermy. Industrial Lubrication and Tribology, n. Ju 2020, p. 1-9, 2020Tradução . . Disponível em: https://www.emerald.com/insight/content/doi/10.1108/ILT-01-2020-0020/full/html. Acesso em: 12 ago. 2022.
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      Alves, L. H. D., Tepedino, T. C., Masoumi, M., Tressia, G., & Goldenstein, H. (2020). Metallurgical and tribological aspects for squat formation in the aluminothermic weld HAZ edges of rails welded using aluminothermy. Industrial Lubrication and Tribology, ( Ju 2020), 1-9. doi:10.1108/ILT-01-2020-0020]
    • NLM

      Alves LHD, Tepedino TC, Masoumi M, Tressia G, Goldenstein H. Metallurgical and tribological aspects for squat formation in the aluminothermic weld HAZ edges of rails welded using aluminothermy [Internet]. Industrial Lubrication and Tribology. 2020 ;( Ju 2020):1-9.[citado 2022 ago. 12 ] Available from: https://www.emerald.com/insight/content/doi/10.1108/ILT-01-2020-0020/full/html
    • Vancouver

      Alves LHD, Tepedino TC, Masoumi M, Tressia G, Goldenstein H. Metallurgical and tribological aspects for squat formation in the aluminothermic weld HAZ edges of rails welded using aluminothermy [Internet]. Industrial Lubrication and Tribology. 2020 ;( Ju 2020):1-9.[citado 2022 ago. 12 ] Available from: https://www.emerald.com/insight/content/doi/10.1108/ILT-01-2020-0020/full/html
  • Source: International Journal of Materials Research. Unidades: EEL, EP

    Subjects: AÇO, BORO, CINÉTICA

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      COSTA, João Paulo Gomes Antunes et al. Borocarbide coarsening and the effect of borocarbide particle size on Charpy V-notch impact properties of medium-carbon boron-containing steel. International Journal of Materials Research, v. 111, n. 10, p. 833-841, 2020Tradução . . Acesso em: 12 ago. 2022.
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      Costa, J. P. G. A., Barboza, M. J. R., Goldenstein, H., Silva, A. L. V. C. e, & Nunes, C. A. (2020). Borocarbide coarsening and the effect of borocarbide particle size on Charpy V-notch impact properties of medium-carbon boron-containing steel. International Journal of Materials Research, 111( 10), 833-841. doi:10.3139/146.111952
    • NLM

      Costa JPGA, Barboza MJR, Goldenstein H, Silva ALVC e, Nunes CA. Borocarbide coarsening and the effect of borocarbide particle size on Charpy V-notch impact properties of medium-carbon boron-containing steel. International Journal of Materials Research. 2020 ;111( 10): 833-841.[citado 2022 ago. 12 ]
    • Vancouver

      Costa JPGA, Barboza MJR, Goldenstein H, Silva ALVC e, Nunes CA. Borocarbide coarsening and the effect of borocarbide particle size on Charpy V-notch impact properties of medium-carbon boron-containing steel. International Journal of Materials Research. 2020 ;111( 10): 833-841.[citado 2022 ago. 12 ]
  • Source: Industrial Lubrication and Tribology. Unidade: EP

    Subjects: DESGASTE, TRILHOS

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      TRESSIA, Gustavo et al. Effect of bainitic transformation on the microstructure and wear resistance of pearlitic rail steel. Industrial Lubrication and Tribology, v. 72, n. 9, p. 1095-1102, 2020Tradução . . Disponível em: https://www.emerald.com/insight/content/doi/10.1108/ILT-07-2019-0282/full/html. Acesso em: 12 ago. 2022.
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      Tressia, G., Alves, L. H. D., Sinatora, A., Goldenstein, H., & Masoumi, M. (2020). Effect of bainitic transformation on the microstructure and wear resistance of pearlitic rail steel. Industrial Lubrication and Tribology, 72( 9), 1095-1102. doi:10.1108/ILT-07-2019-0282
    • NLM

      Tressia G, Alves LHD, Sinatora A, Goldenstein H, Masoumi M. Effect of bainitic transformation on the microstructure and wear resistance of pearlitic rail steel [Internet]. Industrial Lubrication and Tribology. 2020 ;72( 9): 1095-1102.[citado 2022 ago. 12 ] Available from: https://www.emerald.com/insight/content/doi/10.1108/ILT-07-2019-0282/full/html
    • Vancouver

      Tressia G, Alves LHD, Sinatora A, Goldenstein H, Masoumi M. Effect of bainitic transformation on the microstructure and wear resistance of pearlitic rail steel [Internet]. Industrial Lubrication and Tribology. 2020 ;72( 9): 1095-1102.[citado 2022 ago. 12 ] Available from: https://www.emerald.com/insight/content/doi/10.1108/ILT-07-2019-0282/full/html
  • Source: Defect and Diffusion Forum. Unidade: EP

    Subjects: NIÓBIO, VANÁDIO, FERROVIAS

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      REZENDE, A B et al. Effect of Alloy Elements in Time Temperature Transformation Diagrams of Railway Wheels. Defect and Diffusion Forum, v. 400, p. 11-20, 2020Tradução . . Acesso em: 12 ago. 2022.
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      Rezende, A. B., Fernandes, F. M., Fonseca, S. T., Farina, P. F. da S., Goldenstein, H., & Mei, P. R. (2020). Effect of Alloy Elements in Time Temperature Transformation Diagrams of Railway Wheels. Defect and Diffusion Forum, 400, 11-20. doi:10.4028/www.scientific.net/ddf.400.11
    • NLM

      Rezende AB, Fernandes FM, Fonseca ST, Farina PF da S, Goldenstein H, Mei PR. Effect of Alloy Elements in Time Temperature Transformation Diagrams of Railway Wheels. Defect and Diffusion Forum. 2020 ;400 11-20.[citado 2022 ago. 12 ]
    • Vancouver

      Rezende AB, Fernandes FM, Fonseca ST, Farina PF da S, Goldenstein H, Mei PR. Effect of Alloy Elements in Time Temperature Transformation Diagrams of Railway Wheels. Defect and Diffusion Forum. 2020 ;400 11-20.[citado 2022 ago. 12 ]
  • Unidade: EP

    Subjects: TRILHOS, SOLDAGEM, PROPRIEDADES DOS MATERIAIS

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      BAURI, Luiz Felipe et al. The Role of welding parameters on the control of the microstructure and mechanical properties of rails welded using FBW. v. 9, n. 4, p. 8058-8073, 2020Tradução . . Disponível em: https://www.sciencedirect.com/science/article/pii/S2238785420312953. Acesso em: 12 ago. 2022.
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      Bauri, L. F., Alves, L. H., Pereira, H. B., Tschiptschin, A. P., & Goldenstein, H. (2020). The Role of welding parameters on the control of the microstructure and mechanical properties of rails welded using FBW, 9( 4), 8058-8073. doi:10.1016/j.jmrt.2020.05.030
    • NLM

      Bauri LF, Alves LH, Pereira HB, Tschiptschin AP, Goldenstein H. The Role of welding parameters on the control of the microstructure and mechanical properties of rails welded using FBW [Internet]. 2020 ;9( 4): 8058-8073.[citado 2022 ago. 12 ] Available from: https://www.sciencedirect.com/science/article/pii/S2238785420312953
    • Vancouver

      Bauri LF, Alves LH, Pereira HB, Tschiptschin AP, Goldenstein H. The Role of welding parameters on the control of the microstructure and mechanical properties of rails welded using FBW [Internet]. 2020 ;9( 4): 8058-8073.[citado 2022 ago. 12 ] Available from: https://www.sciencedirect.com/science/article/pii/S2238785420312953
  • Source: Surface and Coatings Technology. Unidade: EP

    Subjects: ELEMENTOS DE MÁQUINAS, FERRO FUNDIDO CINZENTO, MOTORES DE COMBUSTÃO INTERNA, DIFRAÇÃO POR RAIOS X

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      SANTOS FILHO, Dinecio dos e TSCHIPTSCHIN, André Paulo e GOLDENSTEIN, Hélio. Effects of shallow plasma nitriding on the surface topography of gray cast iron specimens. Surface and Coatings Technology, v. 404, 2020Tradução . . Disponível em: https://www.sciencedirect.com/science/article/pii/S0257897220311336#!. Acesso em: 12 ago. 2022.
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      Santos Filho, D. dos, Tschiptschin, A. P., & Goldenstein, H. (2020). Effects of shallow plasma nitriding on the surface topography of gray cast iron specimens. Surface and Coatings Technology, 404. doi:10.1016/j.surfcoat.2020.126464
    • NLM

      Santos Filho D dos, Tschiptschin AP, Goldenstein H. Effects of shallow plasma nitriding on the surface topography of gray cast iron specimens [Internet]. Surface and Coatings Technology. 2020 ; 404[citado 2022 ago. 12 ] Available from: https://www.sciencedirect.com/science/article/pii/S0257897220311336#!
    • Vancouver

      Santos Filho D dos, Tschiptschin AP, Goldenstein H. Effects of shallow plasma nitriding on the surface topography of gray cast iron specimens [Internet]. Surface and Coatings Technology. 2020 ; 404[citado 2022 ago. 12 ] Available from: https://www.sciencedirect.com/science/article/pii/S0257897220311336#!
  • Source: Materials Research. Unidade: EP

    Subjects: AÇO, NIÓBIO, FERROVIAS

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    • ABNT

      MINICUCCI, Domingos José et al. Development of Niobium Microalloyed Steel for Railway Wheel with Pearlitic Bainitic Microstructure. Materials Research, v. 22, n. ja 2020, p. 1-8, 2020Tradução . . Disponível em: https://www.scielo.br/pdf/mr/v23n2/1516-1439-mr-23-2-e20190605.pdf. Acesso em: 12 ago. 2022.
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      Minicucci, D. J., Fonseca, S. T., Renato Lyra Villas Boas,, Goldenstein, H., & Mei, P. R. (2020). Development of Niobium Microalloyed Steel for Railway Wheel with Pearlitic Bainitic Microstructure. Materials Research, 22( ja 2020), 1-8. doi:10.1590/1980-5373-mr-2019-0324
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      Minicucci DJ, Fonseca ST, Renato Lyra Villas Boas, Goldenstein H, Mei PR. Development of Niobium Microalloyed Steel for Railway Wheel with Pearlitic Bainitic Microstructure [Internet]. Materials Research. 2020 ; 22( ja 2020): 1-8.[citado 2022 ago. 12 ] Available from: https://www.scielo.br/pdf/mr/v23n2/1516-1439-mr-23-2-e20190605.pdf
    • Vancouver

      Minicucci DJ, Fonseca ST, Renato Lyra Villas Boas, Goldenstein H, Mei PR. Development of Niobium Microalloyed Steel for Railway Wheel with Pearlitic Bainitic Microstructure [Internet]. Materials Research. 2020 ; 22( ja 2020): 1-8.[citado 2022 ago. 12 ] Available from: https://www.scielo.br/pdf/mr/v23n2/1516-1439-mr-23-2-e20190605.pdf
  • Source: Wear. Unidade: EP

    Subjects: DESGASTE, FADIGA DAS ESTRUTURAS, FERROVIAS, AÇO, TRILHOS, TRATAMENTO TÉRMICO

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      TRESSIA, Gustavo et al. Improvement in the wear resistance of a hypereutectoid rail via heat treatment. Wear, v. 442–443, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.wear.2019.203122. Acesso em: 12 ago. 2022.
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      Tressia, G., Sinatora, A., Goldenstein, H., & Masoumi, M. (2020). Improvement in the wear resistance of a hypereutectoid rail via heat treatment. Wear, 442–443. doi:10.1016/j.wear.2019.203122
    • NLM

      Tressia G, Sinatora A, Goldenstein H, Masoumi M. Improvement in the wear resistance of a hypereutectoid rail via heat treatment [Internet]. Wear. 2020 ; 442–443[citado 2022 ago. 12 ] Available from: https://doi.org/10.1016/j.wear.2019.203122
    • Vancouver

      Tressia G, Sinatora A, Goldenstein H, Masoumi M. Improvement in the wear resistance of a hypereutectoid rail via heat treatment [Internet]. Wear. 2020 ; 442–443[citado 2022 ago. 12 ] Available from: https://doi.org/10.1016/j.wear.2019.203122
  • Source: JOM. Unidade: EP

    Subjects: SOLDAGEM, TRILHOS

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      NISHIKAWA, Lucas Pintol e GOLDENSTEIN, Hélio. Divorced Eutectoid on Heat-Affected Zone of Welded Pearlitic Rails. JOM, v. 71, n. 2, p. 815-823, 2019Tradução . . Disponível em: https://link.springer.com/content/pdf/10.1007%2Fs11837-018-3213-5.pdf. Acesso em: 12 ago. 2022.
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      Nishikawa, L. P., & Goldenstein, H. (2019). Divorced Eutectoid on Heat-Affected Zone of Welded Pearlitic Rails. JOM, 71( 2), 815-823. doi:10.1007/s11837-018-3213-5
    • NLM

      Nishikawa LP, Goldenstein H. Divorced Eutectoid on Heat-Affected Zone of Welded Pearlitic Rails [Internet]. JOM. 2019 ; 71( 2): 815-823.[citado 2022 ago. 12 ] Available from: https://link.springer.com/content/pdf/10.1007%2Fs11837-018-3213-5.pdf
    • Vancouver

      Nishikawa LP, Goldenstein H. Divorced Eutectoid on Heat-Affected Zone of Welded Pearlitic Rails [Internet]. JOM. 2019 ; 71( 2): 815-823.[citado 2022 ago. 12 ] Available from: https://link.springer.com/content/pdf/10.1007%2Fs11837-018-3213-5.pdf
  • Source: Engineering Failure Analysis. Unidade: EP

    Subjects: CRISTALOGRAFIA, FADIGA DAS ESTRUTURAS, TRILHOS

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      MASOUMI, Mohammad e SINATORA, Amilton e GOLDENSTEIN, Hélio. Role of microstructure and crystallographic orientation in fatigue crack failure analysis of a heavy haul railway rail. Engineering Failure Analysis, v. 96, p. 320-329, 2019Tradução . . Disponível em: https://www.sciencedirect.com/science/article/pii/S1350630718308471?via%3Dihub. Acesso em: 12 ago. 2022.
    • APA

      Masoumi, M., Sinatora, A., & Goldenstein, H. (2019). Role of microstructure and crystallographic orientation in fatigue crack failure analysis of a heavy haul railway rail. Engineering Failure Analysis, 96, 320-329. doi:10.1016/j.engfailanal.2018.10.022
    • NLM

      Masoumi M, Sinatora A, Goldenstein H. Role of microstructure and crystallographic orientation in fatigue crack failure analysis of a heavy haul railway rail [Internet]. Engineering Failure Analysis. 2019 ;96 320-329.[citado 2022 ago. 12 ] Available from: https://www.sciencedirect.com/science/article/pii/S1350630718308471?via%3Dihub
    • Vancouver

      Masoumi M, Sinatora A, Goldenstein H. Role of microstructure and crystallographic orientation in fatigue crack failure analysis of a heavy haul railway rail [Internet]. Engineering Failure Analysis. 2019 ;96 320-329.[citado 2022 ago. 12 ] Available from: https://www.sciencedirect.com/science/article/pii/S1350630718308471?via%3Dihub

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