How to cite this paper
Safarabadi, M., Khansari, N & Rezaei, A. (2014). An experimental investigation of HA/AL2O3 nanoparticles on mechanical properties of restoration materials.Engineering Solid Mechanics, 2(3), 173-182.
Refrences
Abdel-Samad, A., & EL-Fallal, A. (2009). Evaluation of the effect of zirconium oxide on wear resistance and hardness of acrylic teeth. Egypt Dental Association, 55, 639-643.
Ayad, N. M., Badawi, M. F., & Fatah, A. A. (2008). Effect of reinforcement of high-impact acrylic resin with zirconia on some physical and mechanical properties. Rev. cl?n. pesq. odontol.(Impr.), 4(3), 145-151.
CallisterJr, W. D. (1997). Materials Science and Engineering: An Introduction, 4; Callister, Jr., William D. Materials Science and Engineering: An Introduction, 4th Edition., New York: John Wiley & Sons, Inc., copyright, 499-501.
Carroll, C. E., & Von Fraunhofer, J. A. (1984). Wire reinforcement of acrylic resin prostheses. The Journal of Prosthetic Dentistry, 52(5), 639-641.
Chen, S. Y., Liang, W. M., & Yen, P. S. (2001). Reinforcement of acrylic denture base resin by incorporation of various fibers. Journal of Biomedical Materials Research, 58(2), 203-208.
Ellakwa, A. E., Morsy, M. A., & El?Sheikh, A. M. (2008). Effect of Aluminum Oxide Addition on the Flexural Strength and Thermal Diffusivity of Heat?Polymerized Acrylic Resin. Journal of Prosthodontics, 17(6), 439-444.
Dabbar, U.R., & Huggett, R.H. (1994). A denture fracture-survey. British Dental Journal, 176, 342-345.
Furman, B., Rawls, H. R., Wellinghoff, S., Dixon, H., Lankford, J., & Nicolella, D. (2000). Metal-oxide nanoparticles for the reinforcement of dental restorative resins. Critical Reviews™ in Biomedical Engineering, 28(3 & 4).
Grant, A. A., & Greener, E. H. (1967). Whisker reinforcement of polymethyl methacrylate denture base resins. Australian Dental Journal, 12(1), 29-33.
Gutteridge, D. L. (1988). The effect of including ultra-high-modulus polyethylene fibre on the impact strength of acrylic resin. British Dental Journal, 164(6), 177.
Hargreaves, A. S. (1969). The prevalence of fractured dentures. A survey. British dental journal, 126(10), 451.
Ichikawa, Y., Akagawa, Y., Nikai, H., & Tsuru, H. (1992). Tissue compatibility and stability of a new zirconia ceramic in vivo. The Journal of Prosthetic Dentistry, 68(2), 322-326.
Jagger, D. C., Harrison, A., & Jandt, K. D. (1999). The reinforcement of dentures. Journal of Oral Rehabilitation, 26(3), 185-194.
Johnston, E. P., Nicholls, J. I., & Smith, D. E. (1981). Flexure fatigue of 10 commonly used denture base resins. The Journal of prosthetic dentistry, 46(5), 478-483.
Kim, S. H., & Watts, D. C. (2004). The effect of reinforcement with woven E-glass fibers on the impact strength of complete dentures fabricated with high-impact acrylic resin. The Journal of Prosthetic Dentistry, 91(3), 274-280.
Lambrecht, J. R., & Kydd, W. L. (1962). A functional stress analysis of the maxillary complete denture base. The Journal of Prosthetic Dentistry, 12(5), 865-872.
Matsukawa, S., Hayakawa, T., & Nemoto, K. (1994). Development of high-toughness resin for dental applications. Dental Materials, 10(6), 343-346.
McNally, L., O & apos; sullivan, D. J., & Jagger, D. C. (2006). An in vitro investigation of the effect of the addition of untreated and surface treated silica on the transverse and impact strength of poly (methyl methacrylate) acrylic resin. Bio-medical Materials and Engineering, 16(2), 93-100.
Minamizato, T. (1990). Slip-cast zirconia dental roots with tunnels drilled by laser process resin. The Journal of Prosthetic Dentistry, 63, 677-684.
Panyayong, W., Oshida, Y., Andres, C. J., Barco, T. M., Brown, D. T., & Hovijitra, S. (2002). Reinforcement of acrylic resins for provisional fixed restorations. Part III: effects of addition of titania and zirconia mixtures on some mechanical and physical properties. Bio-Medical Materials and Engineering, 12(4), 353-366.
Powers, J. M., & Sakaguchi, R. L. (2006). Craig & apos; s Restorative Dental Materials, 13/e. Elsevier India.
Radford, D. R., Sweet, S. P., Challacombe, S. J., & Walter, J. D. (1998). Adherence of Candida albicansto denture-base materials with different surface finishes. Journal of dentistry, 26(7), 577-583.
Robinson, M.J. (1993). Impact strength of acrylic resin denture base materials with surface detects. Dental Materials, 9, 355-360.
Ruffino, A. R. (1985). Effect of steel strengtheners on fracture resistance of the acrylic resin complete denture base. The Journal of Prosthetic Dentistry, 54(1), 75-78.
Saad-Eldeen, M. A., AL-Fallal, A. A., & Abouelatta, O. B. (2007). Effect of zirconium oxide reinforcement on epithelial oral mucosa, Immunoglobulin and surface roughness of complete acrylic heat-cured denture. Egypt Dent Associat, 53, 941-946.
Sehajpal, S. B., & Sood, V. K. (1989). Effect of metal fillers on some physical properties of acrylic resin. The Journal of Prosthetic Dentistry, 61(6), 746-751.
Shibata, T., Hamada, N., Kimoto, K., Sawada, T., Sawada, T., Kumada, H., ... & Toyoda, M. (2007). Antifungal effect of acrylic resin containing apatite-coated TiO2 photocatalyst. Dental Materials Journal, 26(3), 437-444.
Sodagar, A., Kassaee, M. Z., Akhavan, A., Javadi, N., Arab, S., & Kharazifard, M. J. (2012). Effect of silver nano particles on flexural strength of acrylic resins. Journal of prosthodontic research, 56(2), 120-124.
Stafford, G. D., Bates, J. F., Huggett, R., & Handley, R. W. (1980). A review of the properties of some denture base polymers. Journal of dentistry, 8(4), 292-306.
Sun, L., Gibson, R. F., Gordaninejad, F., & Suhr, J. (2009). Energy absorption capability of nanocomposites: a review. Composites Science and Technology, 69(14), 2392-2409.
Tinschert, J., Natt, G., Mautsch, W., Augthun, M., & Spiekermann, H. (2001). Fracture Resistance of Lithium Disilicate--, Alumina-, and Zirconia-Based Three-Unit Fixed Partial Dentures: A Laboratory Study. International Journal of Prosthodontics, 14(3).
Uzun, G., Hersek, N., & Tincer, T. (1999). Effect of five woven fiber reinforcements on the impact and transverse strength of a denture base resin. The Journal of prosthetic dentistry, 81(5), 616-620.
Vallittu, P. K., & Lassila, V. P. (1992). Effect of metal strengthener & apos; s surface roughness on fracture resistance of acrylic denture base material. Journal of oral rehabilitation, 19(4), 385-391.
Vallittu, P. K. (1993). Effe1ct of some properties of metal strengtheners on the fracture resistance of acrylic denture base material construction. Journal of oral rehabilitation, 20(3), 241-248.
Verran, J., & Maryan, C. J. (1997). Retention of Candida albicans on acrylic resin and silicone of different surface topography. The Journal of prosthetic dentistry, 77(5), 535-539.
Zarb, G. A., Bolender, C. L., Eckert, S. E., Jacob, R., Fenton, A., & Mericske-Stern, R. (2004). Prosthodontic treatment for edentulous patients. Complete dentures and implant-supported prostheses. 12th. ed. St. Louis: Mosby.
Zuccari, A. G., Oshida, Y., & Moore, B. K. (1997). Reinforcement of acrylic resins for provisional fixed restorationsPart I: Mechanical properties. Bio-medical materials and engineering, 7(5), 327-343.
Ayad, N. M., Badawi, M. F., & Fatah, A. A. (2008). Effect of reinforcement of high-impact acrylic resin with zirconia on some physical and mechanical properties. Rev. cl?n. pesq. odontol.(Impr.), 4(3), 145-151.
CallisterJr, W. D. (1997). Materials Science and Engineering: An Introduction, 4; Callister, Jr., William D. Materials Science and Engineering: An Introduction, 4th Edition., New York: John Wiley & Sons, Inc., copyright, 499-501.
Carroll, C. E., & Von Fraunhofer, J. A. (1984). Wire reinforcement of acrylic resin prostheses. The Journal of Prosthetic Dentistry, 52(5), 639-641.
Chen, S. Y., Liang, W. M., & Yen, P. S. (2001). Reinforcement of acrylic denture base resin by incorporation of various fibers. Journal of Biomedical Materials Research, 58(2), 203-208.
Ellakwa, A. E., Morsy, M. A., & El?Sheikh, A. M. (2008). Effect of Aluminum Oxide Addition on the Flexural Strength and Thermal Diffusivity of Heat?Polymerized Acrylic Resin. Journal of Prosthodontics, 17(6), 439-444.
Dabbar, U.R., & Huggett, R.H. (1994). A denture fracture-survey. British Dental Journal, 176, 342-345.
Furman, B., Rawls, H. R., Wellinghoff, S., Dixon, H., Lankford, J., & Nicolella, D. (2000). Metal-oxide nanoparticles for the reinforcement of dental restorative resins. Critical Reviews™ in Biomedical Engineering, 28(3 & 4).
Grant, A. A., & Greener, E. H. (1967). Whisker reinforcement of polymethyl methacrylate denture base resins. Australian Dental Journal, 12(1), 29-33.
Gutteridge, D. L. (1988). The effect of including ultra-high-modulus polyethylene fibre on the impact strength of acrylic resin. British Dental Journal, 164(6), 177.
Hargreaves, A. S. (1969). The prevalence of fractured dentures. A survey. British dental journal, 126(10), 451.
Ichikawa, Y., Akagawa, Y., Nikai, H., & Tsuru, H. (1992). Tissue compatibility and stability of a new zirconia ceramic in vivo. The Journal of Prosthetic Dentistry, 68(2), 322-326.
Jagger, D. C., Harrison, A., & Jandt, K. D. (1999). The reinforcement of dentures. Journal of Oral Rehabilitation, 26(3), 185-194.
Johnston, E. P., Nicholls, J. I., & Smith, D. E. (1981). Flexure fatigue of 10 commonly used denture base resins. The Journal of prosthetic dentistry, 46(5), 478-483.
Kim, S. H., & Watts, D. C. (2004). The effect of reinforcement with woven E-glass fibers on the impact strength of complete dentures fabricated with high-impact acrylic resin. The Journal of Prosthetic Dentistry, 91(3), 274-280.
Lambrecht, J. R., & Kydd, W. L. (1962). A functional stress analysis of the maxillary complete denture base. The Journal of Prosthetic Dentistry, 12(5), 865-872.
Matsukawa, S., Hayakawa, T., & Nemoto, K. (1994). Development of high-toughness resin for dental applications. Dental Materials, 10(6), 343-346.
McNally, L., O & apos; sullivan, D. J., & Jagger, D. C. (2006). An in vitro investigation of the effect of the addition of untreated and surface treated silica on the transverse and impact strength of poly (methyl methacrylate) acrylic resin. Bio-medical Materials and Engineering, 16(2), 93-100.
Minamizato, T. (1990). Slip-cast zirconia dental roots with tunnels drilled by laser process resin. The Journal of Prosthetic Dentistry, 63, 677-684.
Panyayong, W., Oshida, Y., Andres, C. J., Barco, T. M., Brown, D. T., & Hovijitra, S. (2002). Reinforcement of acrylic resins for provisional fixed restorations. Part III: effects of addition of titania and zirconia mixtures on some mechanical and physical properties. Bio-Medical Materials and Engineering, 12(4), 353-366.
Powers, J. M., & Sakaguchi, R. L. (2006). Craig & apos; s Restorative Dental Materials, 13/e. Elsevier India.
Radford, D. R., Sweet, S. P., Challacombe, S. J., & Walter, J. D. (1998). Adherence of Candida albicansto denture-base materials with different surface finishes. Journal of dentistry, 26(7), 577-583.
Robinson, M.J. (1993). Impact strength of acrylic resin denture base materials with surface detects. Dental Materials, 9, 355-360.
Ruffino, A. R. (1985). Effect of steel strengtheners on fracture resistance of the acrylic resin complete denture base. The Journal of Prosthetic Dentistry, 54(1), 75-78.
Saad-Eldeen, M. A., AL-Fallal, A. A., & Abouelatta, O. B. (2007). Effect of zirconium oxide reinforcement on epithelial oral mucosa, Immunoglobulin and surface roughness of complete acrylic heat-cured denture. Egypt Dent Associat, 53, 941-946.
Sehajpal, S. B., & Sood, V. K. (1989). Effect of metal fillers on some physical properties of acrylic resin. The Journal of Prosthetic Dentistry, 61(6), 746-751.
Shibata, T., Hamada, N., Kimoto, K., Sawada, T., Sawada, T., Kumada, H., ... & Toyoda, M. (2007). Antifungal effect of acrylic resin containing apatite-coated TiO2 photocatalyst. Dental Materials Journal, 26(3), 437-444.
Sodagar, A., Kassaee, M. Z., Akhavan, A., Javadi, N., Arab, S., & Kharazifard, M. J. (2012). Effect of silver nano particles on flexural strength of acrylic resins. Journal of prosthodontic research, 56(2), 120-124.
Stafford, G. D., Bates, J. F., Huggett, R., & Handley, R. W. (1980). A review of the properties of some denture base polymers. Journal of dentistry, 8(4), 292-306.
Sun, L., Gibson, R. F., Gordaninejad, F., & Suhr, J. (2009). Energy absorption capability of nanocomposites: a review. Composites Science and Technology, 69(14), 2392-2409.
Tinschert, J., Natt, G., Mautsch, W., Augthun, M., & Spiekermann, H. (2001). Fracture Resistance of Lithium Disilicate--, Alumina-, and Zirconia-Based Three-Unit Fixed Partial Dentures: A Laboratory Study. International Journal of Prosthodontics, 14(3).
Uzun, G., Hersek, N., & Tincer, T. (1999). Effect of five woven fiber reinforcements on the impact and transverse strength of a denture base resin. The Journal of prosthetic dentistry, 81(5), 616-620.
Vallittu, P. K., & Lassila, V. P. (1992). Effect of metal strengthener & apos; s surface roughness on fracture resistance of acrylic denture base material. Journal of oral rehabilitation, 19(4), 385-391.
Vallittu, P. K. (1993). Effe1ct of some properties of metal strengtheners on the fracture resistance of acrylic denture base material construction. Journal of oral rehabilitation, 20(3), 241-248.
Verran, J., & Maryan, C. J. (1997). Retention of Candida albicans on acrylic resin and silicone of different surface topography. The Journal of prosthetic dentistry, 77(5), 535-539.
Zarb, G. A., Bolender, C. L., Eckert, S. E., Jacob, R., Fenton, A., & Mericske-Stern, R. (2004). Prosthodontic treatment for edentulous patients. Complete dentures and implant-supported prostheses. 12th. ed. St. Louis: Mosby.
Zuccari, A. G., Oshida, Y., & Moore, B. K. (1997). Reinforcement of acrylic resins for provisional fixed restorationsPart I: Mechanical properties. Bio-medical materials and engineering, 7(5), 327-343.