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NANO-CLAY ENHANCED INJECTION MOLDED PRODUCTS S.Kenig & M.Omer

NANO-CLAY ENHANCED INJECTION MOLDED PRODUCTS S.Kenig & M.Omer. The 2 nd Conference on NANOTECHNOLOGY FOR THE PLASTICS & RUBBER INDUSTRIES February 5, 2007. INTRODUCTION. Nano Clays (Montmorillonite) are layered Alumino-Silicates bound together by Na + ions.

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NANO-CLAY ENHANCED INJECTION MOLDED PRODUCTS S.Kenig & M.Omer

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  1. NANO-CLAY ENHANCED INJECTION MOLDED PRODUCTSS.Kenig & M.Omer The 2ndConference on NANOTECHNOLOGY FOR THE PLASTICS & RUBBER INDUSTRIES February 5, 2007

  2. INTRODUCTION • Nano Clays (Montmorillonite) are layered Alumino-Silicates bound together by Na+ ions. • In nature they form a closed structure • To be useful the closed structure has to be delaminated (exfoliated). • When effectively exfoliated the single layer is 1 nm thick and has a surface area of 1µm x 1µm. • The surface area of exfoliated Nano Clays is 700 m2/gr.

  3. INTRODUCTION • Commercially available NC are treated with quaternary ammonium ions having an organic tail (organo clays) • Homogeneous dispersion of NC is enhanced by optimization of processing conditions

  4. INJECTION MOLDINGFLOW AND THERMAL PROFILES Spreading radial flow Fountain flow Non-isothermal flow

  5. OBJECTIVES TO STUDY • The effect of shear and elongational flows on the orientation of nanoclays • The effect of nanoclays on the mechanical properties of injection molded products

  6. INTRODUCTION • When exfoliated nanoclays platelets possess high aspect ratio >1:500 • thickness of: 1 nm • lateral dimensions: 500x500 nm • The orientation of high aspect ratio particles is affected by the flow field – elongational and/or shear

  7. ELONGATIONAL FLOW C1~ aspect ratio

  8. SHEAR FLOW

  9. EXPERIMENTAL directions Molded sample Melt front advancement

  10. DESIGN OF EXPERIMENTS

  11. EXPERIMENTAL • Materials • Nylon 6 • Nylon 12 • Nanoclays 5% Cloisite 30B (hydroxyl terminated)

  12. RESULTS & DISCUSSIONTENSILE FD PA 6 PA 6 neat Cat 85 15 PA 6/NC

  13. RESULTS & DISCUSSIONTENSILE TD PA 6 PA 6 neat PA 6/NC

  14. RESULTS & DISCUSSIONFLEXURAL FD PA 6 PA 6 neat Cat 105 2500 PA 6/NC

  15. RESULTS & DISCUSSIONFLEXURAL TD PA 6 PA 6 neat PA 6/NC

  16. NYLON 6 / NANOCLAYS

  17. RESULTS &DISCUSSIONTENSILE FD - PA 12 Cat 30 200

  18. RESULTS &DISCUSSIONTENSILE TD – PA 12

  19. RESULTS &DISCUSSIONFLEXURAL FD - PA 6 Cat 25 450

  20. RESULTS &DISCUSSIONFLEXURAL TD – PA12

  21. COMPUTATIONAL SIMULATIONMELT FRONT ADVANCEMENT - PA 6

  22. COMPUTATIONAL SIMULATIONORIENTAION OF NANOCLAYS – PA 6 CORE SKIN

  23. COMPUTATIONAL SIMULATIONORIENTAION OF NANOCLAYS – PA 6 ANISOTROPY LEVEL TD FD

  24. COMPUTATIONAL SIMULATIONMELT FRONT ADVANCEMENT - PA 12

  25. COMPUTATIONAL SIMULATIONORIENTAION OF NANOCLAYS – PA 12 SKIN

  26. COMPUTATIONAL SIMULATIONORIENTAION OF NANOCLAYS – PA 12 ANISOTROPY LEVEL FD TD

  27. CONCLUSIONS • Large differences in mechanical properties along and across square sample • Properties of NC containing polymers are highly dependent on processing conditions due to the high aspect ratio of the NC • MD properties are higher compared to TD properties • Computational analysis are in good agreement with experimental tensile moduli measurements • Anisotropy obtained from computational analysis is similar to the anisotropy obtained from experimental measurements

  28. THANK YOUSEE YOU NEXT YEARFebruary 4, 2008

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