9) H. S. Park, N. H. Phan, “Design of conformal cooling channels for an automotivepart”, International Journal of Automotive Technology, Vol. 10, No. 1, pp. 87-93,2009.
8) A. Agazzi, V. Sobotka, R. Le Goff, D. Garcia, Y. Jarny, “A methodology for thedesign of effective cooling system in injection moulding”, Int J Mater Form, Vol.3, pp. 13-16, 2010.
72) Y. L. Chang, W. C. Wang, "Thermal Deformation Measurement in ThermoelectricCoolers by ESPI", Proceedings of the XIth International Congress and Exposition,USA, 2008.
71) Martin J., "Multiphysics Simulation of Thermoelectric Systems-Modeling ofPeltier-Cooling and Thermoelectric Generation", Excerpt from the proceeding ofthe COMSOL Conference 2008 Hannover, Germany, 2008.
70) S. B. Park, Y. H Seo, “Die Casting Product Design,” Press Technology, Vol. 11,pp. 76-87, 2000.
7) J. G. Kovacs, B. Siklo, “Test method development for deformation analysis ofinjection moulded plastic parts”, Poly Testing, 30, pp. 543-547, 2011.
69) B.S. Seo, K. J. Lee, J.K. Yang, Y. S. Cho, D.H. Park, “Development andcharacterization of optimum heat sink for 30W chip on board LED down-light",Transactions on electrical and electronic materials, Vol. 13, No. 6 pp. 292-296,2012.
68) Y.A. Cengel, “Heat Transfer A Practical Approach 2nd edition", McGraw-Hill,Boston, 2003.
64) Georg Menges, Walter Michaeli, Paul Mohren, “How to make Injection Mold”,Hanser publishers, pp. 272, 2001.
61) S.F. Hosseinizadeh, F.L. Tan , S.M. Moosania, “Experimental and numericalstudies on performance of PCM-based heat sink with different configurations ofinternal fin", Applied Thermal Engineering, Vol. 31, pp. 3827-3838, 2011.
60) K.T. Chiang, C.C. Chou, N.M. Liu, “Application of response surface methodologyin describing the thermal performances of pin-fin heat sinks", International Journalof Thermal Sciences, Vol. 48, pp. 1196-1205, 2009.
6) Y. C. Chiang, H. C. Cheng, C. F. Huang, J. L. Lee, Y. Lin, Y. K. Shen,“Warpage phenomenon of thin-wall injection molding”, Int J Adv manuf Technol,55, pp. 517-526, 2011.
59) C.T. Chen, H.I. Chen, “Multi-objective optimization design of plate-fin heat sinksusing a direction-based genetic algorithm", Journal of the Taiwan Institute ofChemical Engineers, Vol. 44, pp. 257-265, 2013.
58) P. Teertstra, M.M. Yovanovich, J. R. Culham, “Analytical forced convectionmodeling plate fin heat sinks", J. Electronics Manufacturing, Vol. 10, No. 4, pp.253-261, 2000.
57) Ilker Tari, Mehdi Mehrtash, “Natural convection heat transfer from inclinedplate-fin heat sinks", International Journal of Heat and Mass Transfer, Vol. 56, pp.574-593, 2013.
55) Yue-Tzu Yang, Huan-Sen Peng, “Numerical study of pin-fin heat sink withun-uniform fin height design", International Journal of Heat and Mass Transfer,Vol. 51, pp. 4788-4796, 2008.
54) Bum-Sik Seo, Ki-Joung Lee, Jong-Kyung Yang, Young Seek Cho, and Dae-HeePark, “Development and Characterization of Optimum Heat Sink for 30 W Chipon Board LED Down-Light”, Transactions on Electrical and Electronic Materlals,Vol. 13, No. 6, pp. 292-296, 2012.
53) R. Arularasan & R. Velraj, “Modeling and simulation of a parallel plate heat sinkusing computational fluid dynamics”, Int J Adv Manuf Technol, Vol. 51, pp.415-419, 2010.
52) Seung-Hwan Yu, Kwan-Soo Lee, Se-Jin Yook, “Natural convection around a radialheat sink”, International Journal of Heat and Mass Transfer, Vol. 53, pp.2935-2938, 2010.
51) H. Shin, J. Kwon, N. Hong, Y. Seo, B. Kim, “A method for thermal control ofnano injection molding using the peltier devics”, Transactions of materialsprocessing, Vol. 17, No. 5, pp. 337-342, 2008.
5) J. G. Kovacs, B. Siklo, “Investigation of cooling effect at coners in injectionmolding”, International Communication in Heat and Mass Transfer, 38, pp.1330-1334, 2011.
49) K. Park, B. H. Kin, “A study on improvement of flow characteristics for thin-wallinjection molding by rapid mold heating”, Transactions of materials processing,Vol. 15, No. 1, pp. 15-20, 2006.
48) A. Agazzi, V. Sobotka, R. Le Goff, D. Garcia, Y. Jarny, “A methodology for thedesign of effective cooling system in injection moulding”, Int J Mater Form,Vol. 3, pp. 13-16, 2010.
47) N. Pirc, F. Bugarin, F. M. Schmidt, M. Mongeau, “Cooling channel optimizationfor injection molding”, Materials processing and design, Numiform '07.
46) E. mathey, L. Penazzi, F. M. Schmidt, “Automatic optimization of the cooling ofinjection mold based on the boundary element method”, Materials processing anddesign, Numiform 2004.
45) X.- P. Li, G. -Q. Zhao, Y. -J. Guan, “Characteristic of rapid heating cyclemoulding and warpage analysis of products”, Plastics, Rubber and Composites, Vol.40, No. 9, pp. 425-432, 2011.
44) Y. F. Sun, K. S. Lee, A. Y. C. Nee, “Design and FEM analysis of the milledgroove insert method for cooling of plastic injection moulds”, Int J Adv ManufTechnol, 24, pp. 715-726, 2004.
43) X. P. Dang, H. S. Park, “Design of U-shape milled groove conformal coolingchannels for plastic injection mold”, Int. J. Precision Engineering andManufacturing, Vol. 12, No. 1, pp. 73-84, 2011.
42) S. J, Liu, C. Y. Ho, “Factors affecting the warpage of rotationally molded parts”,Adv. Polym. Technology, Vol. 18, No. 3, pp. 201-207, 1999.
41) Y. G. Yoo, H. S. Lee, “An experimental study on the warpage of a film insertmolded plate”, Transactions of materials processing, Vol. 21, No. 1, pp. 30-35,2012.
40) J. C. Park, K. M. Kim, J. C. Lee, B. H. Koo, “A study on the robustminimization of warpage in injection-molded part via the optimal design of ribgeometry and process conditions”, KSME, Vol. 8, No. 3, pp. 90-97, 2009.
4) X. Wang, G. Zhao, G. Wang, “Reserch on the reduction of sink mark and warpageof the molded part in rapid heat cycle molding process”, Materials and Design, 47,pp. 779-792, 2013.
39) S. J, Liao, W. H. Hsieh, “Shrinkage and warpage prediction of injection-moldedthin-wall parts using artificial neural networks”, Poly. Eng. Science, Vol. 44, No.11, pp. 2029-2040, 2004.
38) H. Kikuchi, K. koyama, “Generlized warpage parameter”, Poly. Eng. Science, Vol.36, No. 10, pp. 1309-1316, 1996.
37) Y. Gao, L. S. Turng, X. Wang, “Process optimization and effects of materialproperties on numerical prediction of warpage for injection molding”, Adv polyTechnol, Vol. 27, No. 4, pp. 199-216, 2008.
36) H. Kikuchi, K. Koyama, “The relation between thickness and warpage in a diskinjection molded from fiber reinforced PA66”, Poly. Eng. Science, Vol. 36, No. 10,pp. 1317-1325, 1996.
35) H. Shi, S. Xie, X. Wang, “A warpage optimization method for injection moldingusing artificial neural network with parametric”, Int J Adv Manuf Technol, 65, pp.343-353, 2013.
34) H. Zhou, D. Li, “Residual stress analysis of the post-filling stage in injectionmoulding”, Int J Adv Manuf Technol, 25, pp. 700-704, 2005.
33) W. C. Bushko, V. K. Stokes, “Solidification of thermoviscoelastic melts. part 3:effects of mold surface temperature differences on warpage and residual stresses”,Poly. Eng. Science, Vol. 36, No. 3, pp. 322-335, 1996.
32) D. M. Moon, T. G. Choi, M. Y. Lyu, “prediction of mechanical property of glassfiber reinforced polycarbonate and evaluation of warpage through injectionmolding”, Polymer(Korea), Vol.38, No.6, pp. 708-713, 2014.
31) R. Spina, M. Spekowius, R. Dahlmann, C. Hopmann, “Analysis of polymercrystallization and residual stresses in injection molded parts”, Int. J. PrecisionEngineering and Manufacturing, Vol. 15, No. 1, pp. 89-96, 2014.
30) K. K. Kabanemi, H. Vaillancourt, H. Wang, G. Salloum, “Residual stresses,shrinkage, and warpage of complex injection molded products: Numerical simulationand experimental validation”, Poly. Eng. Science, Vol. 38, No. 1, pp. 21-37, 1998.
29) M. Akay, S. Ozden, “Prediction of process-induced warpage in injection moldedthermoplastics”, Poly. Eng. Science, Vol. 36, No. 13, pp. 1839-1846, 1996.
28) K. Chiang, F. Chang, “Analysis of shrinhage and warpage in an injection-moldedpart with a thin shell feature using the response surface methodology”, Int J AdvManuf Technol, 35, pp. 468-479, 2007.
27) S. J. Liao, D. Y. Chang, H. J. Chen, L. S. Tsou, J. R. Ho, H. T. Yau, W. H.Hsieh, “Optimal process conditions of shrinkage and warpage of thin-wall parts”,Poly. Eng. Science, Vol. 44, No. 5, pp. 917-928, 2004.
26) F. D. Santis, R. Pantani, V. Speranza, G. Titomanlio, “Analysis of shrinkagedevelopment of a semicrystalline polymer during injection molding”, Ind. Eng.Chem. Res. 49, pp. 2469-2476, 2010.
25) B. Fan, D. O. Kazmer, W. C. Bushko, R. P. Theriault, A. J. Poslinski, “Warpageprediction of optical media”, Journal of Polymer Science, 41, pp. 859-872, 2003.
24) M. Kurt, Y Kaynak, O. S. Kamber, B. Mutlu, B. Bakir, U. Koklu, “Influence ofmolding conditions on the shrinkage and roundness of injection molded parts”, IntJ Adv Manuf Technol, 46, pp. 571-578, 2010.
23) D.R. Lee, “Investigation of optimal cooling performance using peltier module andheat sink", Journal of the korea society for power system engineering, Vol. 10, No.4, pp. 65-70, 2006.
22) D. Champier, J.P. Bedecarrats, M. Rivaletto, F. Strub, “Thermoelectric powergeneration from biomass cook stoves", Energy, Vol. 35, pp. 935-942, 2010.
21) J. Luo, L. Chen, F. Sun, C. Wu, “Optimum allocation of heat transfer surfacearea for cooling load and COP optimization of a thermoelectric refrigerator",Energy Convers Manage, Vol. 44, pp. 3197-3206, 2003.
20) K.H. Lee, O.J. Kim, “Analysis on the performance of the thermoelectricmicrocooler", Int. J. Heat Mass Transfer, Vol. 50, pp. 1982-1992, 2007.
2) M. Lee, H. Kim, M. Y. Lyu, “A Study on the Warpage of Glass Fiber ReinfocedPlastics for Part Design and Operation Condition: Part2. Crystalline Plastics”,Polymer(Korea), Vol.36, No.6, pp. 677-684, 2012.
19) W.H. Chen, C.Y. Liao, C.I. Hung, “A numerical study on the performance ofminiature thermoelectric cooler affected by thomson effect", Appl. Energy, Vol. 89,pp. 464-473, 2012.
18) M. Chen, L.A. Rosendahl, T. Condra, “A three-dimensional numerical model ofthermoelectric generators in fluid power systems", Int. J. Heat Mass Transfer, Vol.54, pp. 345-355, 2011.
17) Y.G. Gurevich, G.N. Logvinov, “Physics of thermoelectric cooling", Semicond Sci.Technol. Vol. 20, pp. 57-64, 2005.
16) Y. Pan, B. Lin, J. Chen, “Performance analysis and parametric optimal design ofan irreversible multi-couple thermoelectric refrigerator under various operatingconditions", Appl. Energy, Vol. 84, pp. 882-892, 2007.
14) G. Zhao, G. Wang, Y. Guan, H. Li, “Reserch and application of a new rapid heatcycle molding with electric heating and coolant cooling to improve the surfacequality of large LCD TV panels”, Poly. Adv. Technol., 22, pp. 476-487, 2011.
13) X. Li, G. Zhao, Y. Guan, H Li, “Reserch on thermal stress, deformation, andfatigue lifetime of the rapid heating cycle injection mold”, Int J Adv ManufTechnol, 45, pp. 261-275, 2009.
12) J. Liu, Z. Lu, Y. Shi, W. Xu, J. Zhang, “Investigation into manufacturinginjection mold via indirect selective laser sintering”, Int J Adv Technol, 48, pp.155-163, 2010.
11) A. Saifullah, S. H. Masood, I. Sbarski, “New cooling channel design for injectionmoulding”, proceedings of the World Congress on Engineering, Vol. I, 2009.
10) H. S. Park, X. P. Dang, “Optimization of conformal cooling channels with arrayof baffles for plastics injection mold”, Int. J. Precision Engineering andManufacturing, Vol. 11, No. 6, pp. 879-89, 2010.
1) M. Lee, H. Kim, M. Y. Lyu, “A Study on the Warpage of Glass Fiber ReinfocedPlastics for Part Design and Operation Condition: Part1. Amorphous Plastics”,Polymer(Korea), Vol.36, No.5, pp. 555-563, 2012.
