Dr. Alvaro Gonzalez Angeles
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Dr. Alvaro Gonzalez Angeles

Research Scientist
Universidad Autonoma de Baja California, Mexico


Highest Degree
Ph.D. in Materials Science from Universidad Autonoma de Baja California, Mexico

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Biography

Dr. Alvaro Gonzalez Angeles earned his Ph.D. in Materials Science from Universidad Autonoma de Baja California, Mexico. He has published 29 research articles in national and international journals contributed as author/co-author. He has participated in 22 international congresses. He has guided 6 master’s thesis and 1 PhD thesis.

Area of Interest:

Physical Science Engineering
100%
Mechanical Engineering
62%
Magnetic Material
90%
Carbon Fiber Composites
75%
Materials Properties
55%

Research Publications in Numbers

Books
1
Chapters
0
Articles
25
Abstracts
22

Selected Publications

  1. Montoya-Reyes, M., A. González-Angeles, I. Mendoza-Muñoz, M. Gil-Samaniego-Ramos and J. Ling-López, 2020. Method engineering to increase labor productivity and eliminate downtime. J. Industrial Eng. Management, 10.3926/jiem.3047.
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  2. López-González, A., S. Medina-León, A. Gonzalez-Angeles, I. Mendoza-Muñoz and M. Gil-Samaniego-Ramosa, 2020. Assessment of a container terminal expansion using simulation. DYNA, 87: 129-138.
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  3. Hernandez-Sandoval, S., I. Mendoza-Muñoz, C. Navarro-Gonzalez and A. González-Ángeles, 2020. Ergonomic application of virtual anthropometric mannequins in industrial environments. Ecuadorian J. Sci., 4: 25-29.
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  4. González-Toxqui, C., Á. González-Ángeles, R. López-Avitia and D. González-Balvaneda, 2020. Drying Hbanero pepper (Capsicum chinense) by modified freeze drying process. Foods, 10.3390/foods9040437.
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  5. Gonzalez-Toxqui, C., A. Gonzalez-Angeles, R. Lopez-Avitia, I. Mendoza-Munoz, 2020. Time and energy reduction on grape dehydration by applying dipping solution on freeze drying process. An. Acad. Bras. Ciênc., 10.1590/0001-3765202020190072.
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  6. Castro-Franco, A.D., I. Mendoza-Muñoz, Á. González-Ángeles, S.E. Cruz-Sotelo, A.M. Castañeda and M. Siqueiros-Hernández, 2020. Trends in the characterization of the proximal humerus in biomechanical studies: A review. Appl. Sci., 10.3390/app10186514.
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  7. Valenzuela-Gutiérrez, J.A., A. González-Ángeles and J. López-Cuevas, 2019. Degradation of kaolinite clay added with Al2O3–Ta2O5 in H2SO4. Boletín de la Sociedad Española de Cerámica y Vidrio, 59: 65-72.
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  8. Valenzuela-Gutierrez, A., J. Lopez-Cuevas, A. Gonzalez-Angeles and N. Pilalua-Diaz, 2019. Addition of ceramics materials to improve the corrosion resistance of alumina refractories. SN Applied Sci., Vol. 1, No. 7. 10.1007/s42452-019-0789-5.
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  9. Mendoza-Munoz, I., A. Gonzalez-Angeles, M. Gil-Samaniego-Ramos, R. L-Avitia and C. Gonzalez-Toxqui, 2018. Evaluation of significant effects on locking plates design for a 2-part fracture of the surgical neck of the humerus using finite element and statistical analysis. Biomed. Res., 29: 2122-2133.
    Direct Link  |  
  10. Mendoza-Munoz, I., A. Gonzalez-Angeles, G. Jacobo-Galicia, A. Castaneda and J. Valenzuela-Gutierrez, 2018. [Analysis of main elements in locking plating design on a 2-part fracture of the surgical neck of the humerus using FEM and statistical analysis]. Materia, Vol. 23, No. 4, (In Spanish). 10.1590/s1517-707620180004.0556.
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  11. Limon-Molina, G.M., A. Gonzalez-Angeles, V. Nuno-Moreno and G. Luna-Sandoval, 2018. Proposes to enable a CNC mill from 3 axes to 5 axes synchronized. Int. J. Interactive Des. Manuf., 12: 145-150.
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  12. Castillon-Barraza, A., A. Gonzalez-Angeles, F. Lara-Chavez and I. Mendoza-Munoz, 2018. Tools to measure the technological capabilities of the aerospace industry. J. Ind. Eng. Manage., 11: 769-775.
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  13. Molina, G.M.L., V.N. Moreno, C.M. Carbajal, C.R.N. Gonzalez and A.G. Angeles, 2017. An emulation of aditional axis for A 3 axis CNC mill machine. DYNA, 92: 619-622.
  14. Mendoza-Munoz, I., A. Gonzalez-Angeles, M. Siqueiros-Hernandez and M. Montoya-Reyes, 2017. Biomechanical principles used in finite element analysis for proximal humeral fractures with locking plates. Med. Sci. Technol., 58: 128-136.
    CrossRef  |  Direct Link  |  
  15. Castillon-Barraza, A., V. Nuno-Moreno, A. Gonzalez-Angeles and F. Lara-Chavez, 2016. Dependence study on technological capacities of the transnational industry and SME in aerospace sector. J. Applied Sci., 16: 470-476.
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  16. Siqueiros-Hernandez, M., V. Nuno-Moreno, A. Gonzalez-Angeles, I. Mendoza-Munoz and J. Marquez-Gonzalez, 2015. Comparative analysis in a straight section of an orthogonal symmetric balanced composite with aluminum 6061 T6. J. Applied Sci., 15: 1223-1230.
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  17. Pitalua-Diaz, N., E. Herrera-Lopez, G. Valencia-Palomo, A. Gonzalez-Angeles, R. Rodriguez-Carvajal and N. Cazarez-Castro, 2015. Comparative analysis between conventional pi and fuzzy logic PI controllers for indoor benzene concentrations. Sustainability, 7: 5398-5412.
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  18. Mendoza-Munoz, I., V. Nuno-Moreno, A. Gonzalez-Angeles, M. Siqueiros-Hernandez, L. Moreno-Ahedo and M. Montoya-Reyes, 2015. Design analysis of a machined part in a single step to replace a structural component assembled through non-destructive testing and FEA. Procedia Eng., 132: 561-568.
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  19. Mendoza-Munoz, I., V. Nuno-Moreno, A. Gonzalez-Angeles and S.V. Medina-Leon, 2015. Comparative analysis of a structural aerospace assembly part and an unitary machined part using uniaxial strain gage and FEA. J. Applied Sci., 15: 146-152.
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  20. Velazquez, K., G. Estrada and A. Gonzalez, 2014. Statistical analysis for quality welding process: An aerospace industry case study. J. Applied Sci., 14: 2285-2291.
    CrossRef  |  
  21. Slama, J., A. Gruskova, A.G. Angeles, M. Soka and R. Dosoudil, 2014. Magnetic properties of divalent (Ni, Sn, Zn)-Tetravalent (Ru, Sn) ionic mixtures of substituted Ba ferrite. Acta Phys. Pol. A., 126: 172-173.
  22. Prieto-Avalos, M.C., C.R. Navarro-Gonzalez, A. Gonzalez-Angeles and S.V. Medina-Leon, 2014. Reduction waste by combining lean manufacturing and six sigma in an electronics industry. J. Applied Sci. Eng. Technol., 8: 1558-1562.
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  23. Medina-Leon, S.V., A. Medina-Palomera, A. Gonzalez-Angeles, P. Rogers, M. Gil-Samaniego-Ramos, J. Ceballos- Corral and V. Nuno-Moreno, 2014. Framework for patient flow improvement. J. Applied Sci. Eng. Technol., 8: 410-422.
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  24. Ponce-Hernandez, M.M., A. Gonzalez-Angeles, C.R. Navarro-Gonzalez and E. Cabrera-Cordova, 2013. Overall equipment effectiveness (OEE) diagnosis and improving in a small business as an essential tool for business competitiveness. Res. J. Recent Sci., 2: 58-65.
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  25. Diaz, N.P., R.L. Jimenez and G. Angeles, 2013. Tuning fuzzy control rules via genetic algorithms: an experimental evaluation. Res. J. Recent Sci., 2: 81-87.
    Direct Link  |  
  26. Gruskova, A., J. Slama, A.G. Angeles and M. Soka, 2012. Measurement of principal microstructure and magnetic properties of doped Ba ferrite particles. J. Electr. Eng., 63: 156-159.
    Direct Link  |  
  27. Slama, J., M. Soka, A. Gruskova, A. Gonzalez and V. Jancarik, 2011. Hopkinson effect study in spinel and hexagonal ferrites. J. Electr. Eng., 62: 239-243.
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  28. Gonzalez-Angeles, A., A. Gruskova, J. Slama, J. Lopez-Cuevas, I. Sauceda-Meza, J. Marquez-Gonzalez and N. Pitalua-Diaz, 2009. Magnetic and structural studies of (Sn, Ni-Sn) substituted barium hexaferrites synthesized by ball milling. Dyna, 76: 61-65.
    Direct Link  |  
  29. Slama, J., A. Gruskova, V. Jancarik, M. Stofka and A. Gonzalez-Angeles, 2008. Electromagnetic properties of substituted barium hexaferrites. Acta Phys. Pol. Ser. A Gen. Phys., 113: 609-612.
    Direct Link  |  
  30. Gruskova, A., J. Slama, A. Gonzalez, V. Durman, M. Usakova, V. Jancarik and M. Soka, 2008. Electromagnetic properties of selected hexaferrites. Adv. Electr. Electron. Eng., 7: 401-405.
  31. Gonzalez-Angeles, A., J. Lipka, A. Gruskova, V. Jancarik, I. Toth and J. Slama, 2008. (Ni, Zn, Sn) Ru and (Ni, Sn) Sn substituted barium ferrite prepared by mechanical alloying. Hyperfine Interact., 184: 135-141.
    CrossRef  |  Direct Link  |  
  32. Gonzalez-Angeles, A., A. Gruskova, J. Lipka, J. Slama and V. Jancarik, 2008. Magnetic and structural studies of Ba0.5Sr0.5(ZnTi)xFe12-2xO19 synthesized by ball milling. Jordan J. Phys., 1: 37-42.
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  33. Jancarik, V., A. Gruskova, J. Slama, R. Dosoudil, A. Gonzalez and G. Mendoza, 2006. Characteristics of magnetic properties of substituted hexagonal ferrites. Adv. Electr. Electron. Eng., 5: 344-346.
  34. Gruskova, A., J. Lipka, J. Slama, V. Jancarik and M. Papanova et al., 2006. Magneto-crystalline properties of BaFe12-2x MxSnxO19 (M= Sn, Ni, Zn) ferrite powders. Hyperfine Interact., 169: 1223-1230.
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  35. Slama, J., A. Gruskova, M. Papanova, D. Kevicka and V. Jancarik et al., 2005. Properties of M-type barium ferrite doped by selected ions. J. Electr. Eng., 56: 21-25.
    Direct Link  |  
  36. Gonzalez-Angeles, A., G. Mendoza-Suarez, A. Gruskova, M. Papanova and J. Slama, 2005. Magnetic structure of ZnTi-substituted barium hexaferrites prepared by mechanical alloying. Mater. Lett., 59: 26-31.
  37. Gonzalez-Angeles, A., G. Mendoza-Suarez, A. Gruskova, J. Slama and J. Lipka et al., 2005. Magnetic structure of Sn2+Ru4+-substituted barium hexaferrites prepared by mechanical alloying. Mater. Lett., 59: 1815-1819.
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  38. Gonzalez-Angeles, A., G. Mendoza-Suarez, A. Gruskova, J. Lipka and M. Papanova et al., 2005. Effect of (Ni, Zn)Ru mixtures on magnetic properties of barium hexaferrites yielded by high-energy milling. J. Magn. Magn. Mater., 285: 450-455.
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  39. Slama, J., A. Gruskova, M. Papanova, D. Kevicka and R. Dosoudil et al., 2004. Magnetic properties of Me-Zr substituted Ba-hexaferrite. J. Magn. Magn. Mater., 272-276: 385-387.
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  40. Gruskova, A., M. Papanova, D. Kevicka, J. Slama and V. Jancarik et al., 2004. Influence of Zn-Zr ions on microstructural and magnetic properties of ba hexaferrites. Czechoslovak J. Phys., 54: 671-674.
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  41. Gruskova, A., J. Lipka, M. Papanova, D. Kevicka and A. Gonzalez et al., 2004. Mossbauer study of microstructure and magnetic properties (Co, Ni)-Zr substituted Ba ferrite particles. Hyperfine Interact., 156: 187-194.
    CrossRef  |  Direct Link  |  
  42. Gonzalez-Angeles, A., G. Mendoza-Suarez, A. Gruskova, R. Dosoudil and R. Ortega-Zempoalteca, 2004. Magnetic studies of Sn2+-Sn4+-substituted barium hexaferrites synthesized by mechanical alloying. Mater. Lett., 58: 2906-2910.
    CrossRef  |  Direct Link  |  
  43. Gonzalez-Angeles, A., G. Mendoza-Suarez, A. Gruskova, I. Toth, V. Jancarik, M. Papanova and J.I. Escalante-Garci, 2004. Magnetic studies of NiSn-substituted barium hexaferrites processed by attrition milling. J. Magn. Magn. Mater., 270: 77-83.
    CrossRef  |  Direct Link  |  
  44. Gruskova, A., J. Slama, V. Jancarik, M. Papanova and A. Gonzalez-Angeles, 2002. Thermomagnetic analysis of material properties. J. Electr. Eng., 53: 131-134.
  45. Gonzalez, A., G. Mendoza, J.I. Escalante, E. Valdez and A. Gruskova, 2002. Magnetic properties of Zn-Ti substituted Ba-hexaferrites prepared by mechanical alloying. J. Electr. Eng., 53: 127-129.