[1] فضلی، محمد؛ رضاعی، سید مهدی؛ زارعی نژاد، محمد؛"بررسی،آزمایش و بهبود عملکرد عملگرمیکرونی در سنگ زنی دقیق بکمک شبکه عصبی"، نشریه علمی پژوهشی امیرکبیر 104 ، زمستان - )مهندسی مکانیک(، دوره 45 ، شماره 2، صفح 87 .1392
[2] قریشی، مجید؛ عصارزاده، سعید؛ "پی شبینی نرخ براده برداری و زبری سطح در فرایند ماشینکاری تخلیه الکتریکی بر اساس مدلهای شبکه عصبی"، مهندسی مکانیک مدرس، دوره 6، شماره 1، صفحه . 102-87 ، شهریور 1385
[3] مهدوی نژاد، رمضانعلی؛ تمیمی، کامران؛ "پیش بینی زبری سطح در ترا شکاری خشک به کمک شبک ههای فازی- عصبی - تطبیقی"، نشریه دانشکده فنی، دوره 43 ، شماره 1، صفحه 110. 103 ، بهار 1388
[4] Teti, R.; “Machining of Composite Materials”, CIRP Annals - Manufacturing Technology, Vol. 51: pp 611-634, 2002.
[5] Bishay, I.K.; Abd-El-Messieh, S.L.; Mansour, S.H.;“Electrical, mechanical and thermal properties of polyvinyl chloride composites filled with aluminum powder“, Materials and Design, Vol. 32: pp 62-68, 2011.
[6] Choi, S.; Kim, J.; “Thermal conductivity of epoxy composites with a binary-particle system of aluminum
oxide and aluminum nitride fillers”, Composites Part B: Engineering, Vol. 51: pp 140-147, 2013.
[7] Zhou, W.; Wang, C.; Ai, T.; Wu, K.; Zhao, F.; Gu, H.;“A novel fiber-reinforced polyethylene composite with
added silicon nitride particles for enhanced thermal conductivity”, Composites Part A: Applied Science and Manufacturing, Vol. 40: pp 830-836, 2009.
[8] Basavarajappa, S.; Ellangovan, S.; “Dry sliding wear characteristics of glass–epoxy composite filled with
silicon carbide and graphiteparticles”, Wear, Vol. 296:pp 491-496, 2012.
[9] Fu, S.Y.; Feng, X.Q.; Lauke, B.; Mai, Y.W.; “Effects of particle size, particle/matrix interface adhesion
and particle loading on mechanical properties of particulate–polymer composites”, Composites Part B:Engineering, Vol. 39: pp 933-961, 2008.
[10] Kim, H.J.; Jung, D.H.; Jung, I.H.; Cifuentes, J.I.;Rhee, K.Y.; Hui, D.; “Enhancement of Mechanical Properties of Aluminium/Epoxy Composites with Silane Functionalization of Aluminium Powder”,Composites Part B: Engineering, Vol. 43: pp. 1743-1748, 2012.
[11] Chung, S.; Im, Y.; Kim, H.; Park, S.; Jeong, H.;“Evaluation for Micro Scale Structures Fabricated Using Epoxy-Aluminum Particle Composite and Its Application”, Journal of Materials Processing Technology, Vol. 160: pp 168-173, 2005.
[12] Goyanes, S.; Rubiolo, G.; Marzocca, A.; Salgueiro, W.; Somoza, A.; Consolati, G. I.; Mondragon, G.; “Yield and internal stresses in aluminum filled epoxy resin. A compression test and positron annihilation analysis”, olymer, Vol. 44: pp 3193-3199, 2003.
[13] Miko, E.; Nowakowski, Ł.; “Analysis and Verification of Surface Roughness Constitution Model After Machining Process“, Procedia Engineering, Vol.39: pp 395-404, 2012.
[14] Benardos, P.G.; Vosniakos, G.C.; “Predicting surface roughness in machining: a review”, International Journal of Machine Tools and Manufacture, Vol. 43: pp 833-844, 2003.
[15] Dandekar, C.R.; Shin, Y.C.; “Modeling of machining of composite materials: A review”, International
Journal of Machine Tools and Manufacture, Vol. 57:pp 102-121, 2012.
[16] Raj, K.H.; Sharma, R.S.; Srivastava, S.; Patvardhan, C.; “Modeling of manufacturing processes with ANNs
for intelligent manufacturing”, International Journal of Machine Tools and Manufacture, Vol. 40: pp 851-868,
2000.
[17] Gururaja, S.; Ramulu, M.; Pedersen, W.; “Machining of MMCs a Review”, Machining Science and
Technology, Vol. 17: pp 41–73, 2013.
[18] Zhang, Z.; Friedrich, K.; “Artificial neural networks applied to polymer composites: a review”, Composites
Science and Technology, Vol. 63: pp 2029-2044, 2003.
[19] http://www.pmpcompany.ir.
[20] DIN EN ISO 4287:2010-07, Geometrical Product Specifications (GPS) - Surface texture: Profile method
- Terms, definitions and surface texture parameters (ISO 4287:1997).
[21] Sheikh-Ahmad, G.Y.; “Machining of Polymer Composites”, Springer Science, New York, USA,2009.
[22] Xiao, K.Q.; Zhang, L.C.; “The Role of Viscous Deformation in the Machining of Polymers”.International Journal of Mechancial Sciences, Vol. 44:pp 2317–2336, 2002.
[23] El-Sonbaty, I.; Khashaba, U.A.; Machaly, T.;“Factors Affecting the Machinability of GFR/Epoxy Composites”, Composite Structures, Vol. 63: pp 329-338, 2004.
[24] Zunjarrao, S.C.; Singh, R.P.; “Characterization of the Fracture Behavior of Epoxy Reinforced with Nanometer and Micrometer Sized Aluminum Particles”, Composites Science and Technology, Vol.66: pp 2296-2305, 2006.
[25] Pendse, D.M.; Joshi, S.S.; “Modeling and Optimization of Machining Process in Discontinuously Reinforced
Aluminum Matrix Composites”, Machining Science and Technology: An International Journal, Vol. 8: pp 85–102, 2004.
[26] Basheer, A.C.; Dabade, U.A.; Joshi, S.S.;Bhanuprasad, V.V.; Gadre, V.M.; “Modeling of Surface Roughness in Precision Machining of Metal Matrix Composites Using ANN”, Journal of Materials Processing Technology, Vol. 197: pp 439-444, 2008.
[27] An, S.-O.; Lee, E.-S.; Noh, S.-L.; “A Study on the Cutting Characteristics of Glass Fiber Reinforced Plastics with Respect to Tool Materials and Geometries”, Vol. 68: pp 60-67, 1997.
[28] Carr. J.W.; Feger, C.; “Ultraprecision Machining of Polymers”, Precision Engineering. Vol. 15: pp 221–237, 1993.
[29] Hagan, M.T.; Demuth, H.B.; Beale, M.H.; “Neural Network Design”, PWS Publishing, Boston, 1996.
[30] The Math Works Inc., Product, Neural Network Toolbox Version 7.6 MATLAB® 7.6 Release 14 Service Pack 3, 2008.
)