연구동향 분석
박사

고광택 사출성형품 표면의 광택 불량 발생 기구와 조절 = Generation mechanism and control of gloss defects for high-gloss injection-molded products

김진수 2020년

논문상세정보
인용/피인용
' 고광택 사출성형품 표면의 광택 불량 발생 기구와 조절 = Generation mechanism and control of gloss defects for high-gloss injection-molded products' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 광택 불량
  • 금형 표면 전사
  • 사출성형
  • 수축
  • 표면 불량
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
91 0

0.0%

' 고광택 사출성형품 표면의 광택 불량 발생 기구와 조절 = Generation mechanism and control of gloss defects for high-gloss injection-molded products' 의 참고문헌

  • volume ? temperature studies of semi-crystalline polymersp. 379 ? 415
    vol . 238 [1994]
  • volume ? temperature relationships of polymers to 350 ¡ÆC and 2200 kg/cm2 ,
    vol . 47 , no . 8 [1976]
  • p. 3997 ? 4006
    vol . 6 , no . 5 [2016]
  • [98] R. Alexandr-Katz and R. G. Barrera, "Surface correlation effects on gloss," Journal of Polymer Science: Part B: Polymer Physics, vol. 36, no. 8, p. 1321?1334, 1998.
  • [97] H. E. Bennett and J. O. Porteus, "Relation between surface roughness and specular reflectance at normal incidence," Optical Society of America, vol. 51, no. 2, p. 123?129, 1961.
  • [95] P. Beckmann, "Scattering of light by rough surfaces," Progress in Optics, vol. 6, p. 53?69, 1967.
  • [94] R. Silvennoinen, K.-E. Peiponen and K. Muller, Specular gloss, Amsterdam: Elsevier, 2008.
  • [92] M. Perani, S. Carapezzi, G. R. Mutta and D. Cavalcoli, "Nanostructured surfaces investigated by quantitative morphological studies," Nanotechnology, vol. 27, no. 18, p. 1?9, 2016.
  • [8] J. Wang, "Moldflow research development,Autodesk, 2018.
    [2018]
  • [89] P. Klapetek, D. Ne?as and C. Anderson, "Gwyddion user guide," Czech Metrology Institute, 2018.
  • [88] D. Ne?as and P. Klapetek, "Gwyddon: an open-source software for SPM data analysis," Central European Journal of Physics, vol. 10, no. 1, p. 181?188, 2012.
  • [87] Leica Microsystems (Switzerland) Ltd., Leica DCM8, Heerbrugg, Switzerland: Leica Microsystems Ltd., 2014.
  • [86] J. I. McCool, "Assessing the effect of stylus tip radius and flight on surface topography," Journal of Tribology, vol. 106, no. 2, p. 202?209, 1984.
  • [85] V. Radhakrishanan, "Effect of stylus radius on the roughness values measured with tracing stylus instruments," Wear, vol. 16, no. 5, p. 325?335, 1970.
  • [82] B. Bhushan, "Surface roughness analysis and measurement techniques," in Modern tribology handbook, Two volume set, Boca Raton, CRS press, 2000, p. 74?144.
  • [81] K. J. Stout and L. Blunt, Three-dimensional surface topography, Second edition, London: Butterworth-Heinemann, 2000.
  • [80] J. Brandrup, E. H. Immergut and E. A. Grulke, Polymer handbook 4th edition, Hokoken: John Wiley & Sons, 1999.
  • [7] M. G. H. M. Baltussen, M. A. Hulsen and G. W. M. Peters, "Numerical simulation of the fountain flow instability in injection molding," Journal of Non-Newtonian Fluid Mechanics, vol. 165, no. 11-12, p. 631?640, 2010.
  • [75] International Organization for Standardization, "ISO 2813:2014 Paints and varnishes - etermination of gloss value at 20 degrees, 60 degrees and 85 degrees," 2014.
  • [74] ASTM International, "ASTM D2457-03 Standard test method for specular gloss of plastic films and solid plastics," West Conshohocken, 2003.
  • [73] ASTM International, "ASTM D523-08 Standard test method for specular gloss," West Conshohocken, 2008.
  • [72] J. S. Arney, L. Ye and S. Banach, "Interpretation of gloss meter measurements," Journal of Imaging Science and Technology, vol. 50, no. 6, p. 567?571, 2006.
  • [6] A. C. B. Bogaerds, M. A. Hulsen, G. W. M. Peters and F. P. T. Baaijens, "Stability analysis of injection molding flows," Journal of Rheology, vol. 48, no. 4, p. 765?785, 2004.
  • [68] J. Filip, R. Vavra and F. J. Maile, "BRDF measurement of highly-specular materials using a goniometer," in 33rd Spring Conference on Computer Graphics, Mikulov, Czech Republic, 2017.
  • [67] K. J. Dana, "BRDF/BTF measurement device," in Eighth IEEE International Conference on Computer Vision. ICCV 2001, Vancouver, BC, Canada, 2001.
  • [66] K. J. Dana, B. v. Ginneken, S. K. Nayar and J. J. Koenderink, "Reflectance and texture of real-world surfaces," ACM Transactions on Graphics, vol. 18, no. 1, p. 1?34, 1999.
  • [64] A. International, "ASTM D 4449-90: Standard test method for visual evaluation of gloss differences between surfaces of similar appearance," West Conshohocken, PA, 1999.
  • [63] J. C. Stover, "Chapter 26 scatterometers," in Handbook of optics, New York, McGraw-Hill, 2001, p. 26.1?26.16.
  • [62] M. Gupta, "Computer Graphics lecture presentation: Measuring material appearance: BRDF, BSSRDF, BTF,2009.
    [2009]
  • [61] D. Guarnera, G. C. Guarnera, A. Ghosh, C. Denk and M. Glencross, "BRDF representation and acquisition," Computer Graphics Forum, vol. 35, p. 626?650, 2016.
  • [5] S. Owada and H. Yokoi, "Generation mechanism of tiger-striped flow mark in injection molding," ßæߧ?ϼ (Seisan Kenkyu), vol. 69, no. 6, p. 387?397, 2017.
  • [59] D. Frenlker and H. Zawistowski, Hot runners in injection moulds, Shawbury, United Kingdom: Rapra Technology, 2001.
  • [58] J. P. Beaumont, Runner and gating design handbook 2E: Tools for successful injection molding, Cincinnati, OH: Hanser Gardner Publications, 2007.
  • [55] F. A. Morrison, Understanding rheology, Oxford: Oxford University Press, 2001.
    [2001]
  • [54] PerkinElmer Inc., "Dynamic mechanical analysis basics: part 2 thermoplastic transitions and properties," PerkinElmer Inc., Waltham, 2007.
  • [52] M. Nikzad, S. H. Masood and I. Sbarski, "Thermo-mechanical properties of a highly filled polymeric composites for fused deposition modeling," Materials and Design, vol. 32, no. 6, p. 3448?3456, 2011.
  • [51] K. P. Menard and N. R. Menard, "Dynamic mechanical analysis in the analysis of polymers and rubbers," John Wiley & Sons, 2015, p. 1?33.
  • [50] J. J. Aklonis and W. J. MacKnight, Introduction to polymer viscoelasticity, New York: John Wiley & Sons, 1983.
  • [46] J. R. Fried, Polymer science and techology, Second edition, Upper Saddle River: Prentice Hall Professional Technical Reference, 2003.
    Second edition [2003]
  • [45] Autodesk Pty. Ltd., "Moldflow 2019 Material Database," North Ryde, Australia, 2019.
  • [44] M. L. Williams, R. F. Landel and J. D. Ferry, "The temperature dependence of relaxation mechanisms in amorphous polymers and other glass-forming liquids," Journal of the American Chemical society, vol. 77, no. 14, p. 3701?3707, 1955.
  • [42] M. M. Cross, "Rheology of non-Newtonian fluids: A new flow equation for pseudoplastic systems," Journal of Colloid Science, vol. 20, p. 417?437, 1965.
  • [39] M. Peabody, "Synventive Introduces activeGate¢â New Tool-Based Molding Technology," Synventive Molding Solutions, 3 November 2014. [Online]. Available: https://www.synventive.com/aboutus/viewnews.aspx?id=2147486636. [Accessed 24 September 2019].
  • [34] M. Ferndale, ¡°Synventive introduces third-generation synflow hot-runner technology,¡± Plastics News, 6th December 2017.
  • [2] M. E. H. Creusen and J. P. L. Schoormans, "The different roles of product appearance in consumer choice," Journal of product innovation management, vol. 22, no. 1, p. 63?81, 2005.
  • [29] V. Goodship, Troubleshooting injection moulding, iSmithers Rapra Publishing, 2004.
  • [22] A. Dharia, "Analysis of halo effects on injection molded parts," Journal of Injection Molding Technology, vol. 3, no. 2, p. 67?72, 1999.
  • [20] S. Y. Hobbs, "The development of flow instabilities during the injection molding of multicomponent resins," Polymer Engineering and Science, vol. 32, no. 11, p. 1489?1494, 1996.
  • [1] R. Snowden, P. Thompson and T. Troscianko, Basic Vision: An Introduction To Visual Perception, Oxford University Press, 2012.
  • [19] S. Owada and H. Yokoi, "Visualization analysis of tiger-striped flow mark generation phenomena in injection molding," in 31th International Conference of the Polymer Processing Society, Jeju, Republic of Korea, 2016.
  • [18] S.-Y. Yang, C.-C.M. Ma, C.-C. Teng, Y.-W. Huang, S.-H. Liao, Y.-L. Huang, H.-W. Tien, T.-M. Lee, K.-C. Chiou, Effect of functionalized carbon nanotubes on the thermal conductivity of epoxy composites, Carbon 48 (2010) 592-603.
  • [18] A. M. Grillet, A. C. B. Bogaerds, G. W. M. Peters, F. P. T. Baaijens and M. Bulters, "Numerical analysis of flow mark surface defects in injection molding flow," Journal of Rheology, vol. 46, no. 3, p. 651?669, 2002.
  • [16] S. Ignell, P. Porsgaard and M. Rigdahl, "Ghost marks?gloss-related defects in injection-molded plastics," Polymer Engineering and Science, vol. 52, no. 2, p. 459?466, 2012.
  • [12] L. Tredoux, I. Satoh and Y. Kurosaki, "Investigation of wave-like flow marks in injection molding: flow visualization and micro-geometry," Polymer Engineering and Science, vol. 39, no. 11, p. 2233?2241, 1999.
  • [115] G. Obein, K. Knoblauch and F. Vienot, "Difference scaling of gloss: nonlinearity, binocularity, and constancy," Journal of Vision, vol. 4, no. 9, p. 711?720, 2004.
  • [114] ASTM International, "ASTM D4449-90: Standard Test Method for Visual Evaluation of Gloss Differences Between Surfaces of Similar Appearance," West Conshohocken.
  • [113] Konica Minolta, "Understanding Gloss Standards & Units," Konica Minolta, 2019. [Online]. Available: https://sensing.konicaminolta.us/blog/understanding-gloss-standards-units/. [Accessed 4th September 2019].
  • [111] F. P. Incropera, D. P. DeWitt, T. L. Bergman and A. S. Lavine, Introduction to heat transfer, 5th edition, Hoboken: Johm Wiley & Sons, 2007.
  • [110] H. S. Carslaw and J. C. Jaeger, Conduction of heat in solids, Second edition, Oxford: Oxford University Press, 1959.
  • [109] H. Gross, F. Blechinger and B. Achtner, Handbook of optical systems, Weinheim, Germany: Wiley-VCH, 2008.
  • [108] J. D. Lytle, "Chapter 34 polymeric optics," in Handbook of optics, New York, McGraw-Hill, 2001, p. 34.1?34.21.
  • [106] G. F. Giaconi, L. Castellani, C. Maestrini and T. Ricco, "Development of toughness in ABS resins," Polymer, vol. 39, no. 25, p. 6315?6324, 1998.
  • [105] G. Wypych, "ABS poly(acrylonitrile-co-butadiene-co-styrene)," in Handbook of polymers, ChemTec Publishing, 2012, p. 3?10.
  • [103] F. Lednicky and Z. Pelzbauer, "Gloss as an inner morphology characteristic of ABS polymers," Die Angewandte Makromolekulare Chemie: Applied Macromolecular Chemistry and Physics, vol. 141, no. 1, p. 151?160, 1986.
  • [102] M. R. Kamal, A. I. Isayev and S.-J. Liu, Injection molding technology and fundamentals, Cincinnati, OH: Hanser Publications, 2011.
  • [101] G. Menges, W. Michaeli and P. Mohren, How to make injection molds, Third edition, Cincinnati: Hanser Gardner Publications, 2000.
  • Xu , H. D. Yang and H. X. Zhang , Effects of the polybutadiene/poly ( styrene ? co ? acrylonitrile ) ratio in a polybutadiene ? g ? poly ( styrene ? co ? acrylonitrile ) impact modifier on the morphology
    styrene blends , '' Journal of Applied Polymer Science , vol .
  • What difference in gloss units is visible to the human eye ?
    . Available : https : //www.rhopointinstruments.com/faqs/what-difference-in-gloss-units-is-visible-to-the-human-eye/ . [ Accessed
  • Visualization analysis of flow front behavior during filling process of injection mold cavity by two-axis tracking system , Journal of Materials Processing Technology , vol . 130 ? 131 , p. 328 ? 333
    [2002]
  • Viscoelastic properties of polymers
    [1980]
  • Valve gate open lag time on conventional hot runner system
    [2018]
  • U. Kleist and M. Rigdahl , Three-dimensional scanning electrom microscopy characterization of the topography of textured polymeric surfacep. 1527 ? 1534
    vol . 50 , no . 8 [2010]
  • Theory of wave scattering from random rough surfaces
    [1991]
  • The relation between injection molding conditions and gloss of ABS molding
    vol . 14 , no . 11 [2013]
  • The observation and origin of micro flow marks in the precision injection molding of polycarbonatep. 819 ? 826
    vol . 36 , no . 6 [1996]
  • The gate open lag time of pneumatic hot runner system
    [2018]
  • The effect of molding conditions on the surface gloss of ABS molding
    vol . 16 , no . 4 , p. 110 ? 115 [1999]
  • TQC Gloss meters datasheet , TQC Sheen
  • Surface topography and gloss analysis on gloss defects of injection molded parts
    [2018]
  • Surface roughness and impact strength of injection-moulded polystyrene ,p. 2704 ?
    vol . 29 , no . 10 [1994]
  • Special lecture : Material data measurement for rubberCompounds ? methods and special features of rubbers
    [2019]
  • Simulation and validation of mold filling with velocityControlled valve gates
    [2015]
  • Research on a new variotherm injection molding technology and its application on the molding of a large LCD panel , Polymer-Plastics Technology and Engineeringp. 671 ? 681
    vol . 48 , no . 7 [2009]
  • Properties of polymers : Their estimation andCorrelation withChemical structure
    [1976]
  • Predict and solve stress mark on product 'sCosmetic surface usingControlled sequential valve gating simulation
    [2017]
  • P. Panine and L. Leibler , Phase behavior and viscoelastic properties of thermoplastic elastomet gels based on ABS triblock copolymersp. 7798 ? 7806
    vol . 38 , no . 18 [2005]
  • Optimal design of heating channels for rapid heating cycle injection mold based on response surface and genetic algorithmp. 4317 ? 4323
    vol . 30 , no . 10 [2009]
  • On the dynamical theory of gratings , Proceedings of the Royal Society of London Series A , Containing Papers of a Mathematical and Physical Character
    vol . 79 , no . 532 , p. 399 ? 416 [1907]
  • Methods of determining gloss
    vol . 18 , no . 1 , [1937]
  • Measurement of the visual perceptibility of sink marks on injection molding parts by a new fast processing model
    vol . 33 , p. 7 ? 12 [2014]
  • L. Mattsson and M. Rigdahl , On the relation between surface texture and gloss of injection-molded pigmented plastics ,p. 1343 ? 1356
    vol . 45 , no . 10 [2005]
  • Jahansson and M. Rigdahl , Surface texture characterization of injection-molded pigmented plastics ,
    vol . 44 , no . 9 , p. 1615 ? 1626 [2004]
  • J. Als-Nielsen and J. Bohr , Surface roughness of water measured by X-ray reflectivityp. 114 ? 117
    vol . 54 , no . 2 [1985]
  • Investigation of wavelike flow marks in injeciton molding : a new hypothesis for the generation mechanism
    vol . 40 , no . 10 [2000]
  • Injection-molding problems in engineering thermoplastics causes and solutions
    [2009]
  • In Handbook of engineering and speciality thermoplastics , Volume1 : polyolefins and styrenics , Salem , Wiley-Scrivener , 2010 , p. 211 ? 267
  • Hot runner technology
    [2006]
  • Hot runner help , Synventive molding solutions
    . . Available : https : //hotrunnerhelp.com/2019/05/10/hot-runner-flow-control-technologies-part-2/ . [ Accessed
  • Gloss and surface topography of ABS : A study on the influence of the injection molding parametersp. 1394 ? 1401
    vol . 46 , no . 10 [2006]
  • Flow marks in injection molding of polypropylene and ethylene-propylene elastimer blends : analysis of morphology and rheologyp. 423 ? 434
    vol . 96 , no . 2 [2005]
  • Finite element analysis for wavelike flow marks in injection moldingp. 922 ? 933
    vol . 47 , no . 6 [2007]
  • Experimental study of transcription of smooth surfaces in injection moldingp. 1251 ? 1260
    vol . 33 , no . 19 [1993]
  • Eliminate surface defects on molded parts
  • Early and E. A. Thompson , Specular Gloss
    [2006]
  • Do you still get stubborn surface defects , even with sequential valve gating ?
    29
  • D. Ward and M. Prey , Application and simulation of velocity-controlled valve gates
    [2014]
  • D. P. Gruber and W. Frisenbichler , More gloss , less weld lines
    pp . 26-29 , 7 [2011]
  • Characterization of gloss properties of differently treated polymer coating surfaces by surface clarity measurement methodology
    vol . 51 , no . 20 [2012]
  • C. Teichert and M. Burgsteiner , Replication of stochastic and geometric micro structures - aspects of visual appearance
    vol . 26 , no . 3 , p. 313 ? 322 [2011]
  • Brownian motion in the equilibrium state , Journal of the Chemical Society , Faraday Transactions 2 : Molecular and Chemical Physicsp. 1789 ? 1801
    vol . 74 [1978]
  • Arburg practical guide to injection moulding
    [2004]
  • A. D. Rey and J. Teh , Surface topography and gloss of polyolefin blown films
    vol . 40 , no . 3 , p. 747 ? 760 [2000]
  • A study on the halo surface defects of injection molded products
    [2017]
  • A random walk through surface scattering phenomena : Theory and phenomenology
    [2004]
  • A novel methodology for the evaluation of distinctness of image of glossy surface
    vol . 63 , no . 4 , p. 337 ? 381 [2008]