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CH HYPERDISPERSANT

CH HYPERDISPERSANT. STRUCTURE & PRORERTIES SHANGHAI SANZHENG POLYMER MATERIAL Co.,LTD. DISPERSING PROCESS OF PIGMENTS. 1) WETTING L/S INTERFACE--S/G INTERFACE 2) DEAGGLOMERATION BREAKAGE & REAGGLOMERATION

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CH HYPERDISPERSANT

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  1. CH HYPERDISPERSANT STRUCTURE & PRORERTIES SHANGHAI SANZHENG POLYMER MATERIAL Co.,LTD

  2. DISPERSING PROCESS OF PIGMENTS • 1) WETTING L/S INTERFACE--S/G INTERFACE • 2) DEAGGLOMERATION BREAKAGE & REAGGLOMERATION • 3) STABILIZATION REMAINING PARTICLE SIZE & ITS DISTRIBUTION

  3. MECHANISM OF DISPERSION STABILIZATION • ELECTROSTATIC STABILIZATION DOUBLE--LAYER THEORY • STERIC STABILIZATION OSMOTIC REPULSION THEORY ENTROPIC REPULSION THEORY

  4. DEEFFICIENCY OF CLASSICAL SURFACTANTS • HYDROPHILIC GROUP NOT DESIGNED FOR PIGMENT SURFACE, EASY TO DESORB • HYDROPHOBIC GROUP NON-POLAR STRUCTURE INCOMPATIBLE WITH POLAR MEDIA 18 CARBON ATOMS, TOO SHORT

  5. Anchoring Group PARTICLE PARTICLE Solvatable Chain MOLECULAR STRUCTURE OF CH HYPERDISPERSANTS

  6. ANCHORING GROUP • DESIGNED FOR PIGMENT SURFACESTRONG POLARITY SURFACE SINGLE-SPOT CHEMICAL BONDING WEAK POLARITY SURFACE MULTI-SPOT HYDROGEN BONDING NON-POLAR PIGMENT SURFACE SURFACE SYNERGIST

  7. SOLVATABLE CHAIN • MONO-FUNCTIONAL TERMINAL • JUSTABLE COMPATIBILITY MONOMER STRUCTURE MONOMER RATIO SOLVATABLE CHAIN POLARITY • LENGTH OF SOLVATABLE CHAIN CONTROLLED MOLECULAR WEIGHT ADEQUATE CHAIN LENGTH

  8. STRONG POLARITY SURFACE WEAK POLARITY SURFACE NON-POLAR SURFACE MORPHOLOGY OF HYPERDISPERSANT

  9. Xap MaCa tgθ=Ma 直线 θ Ca Ce ADSORPTION PROPERTIES OF HYPERDISPERSANT Rehacek Method

  10. 超分散剂在磁粉表面的吸附等温线 (Mn=700) 超分散剂在磁粉表面的吸附等温线 (Mn=1500) 超分散剂在磁粉表面的吸附参数 (Mn=700) 超分散剂在磁粉表面的吸附参数 (Mn=1500)

  11. RHEOLOGICAL PROPERTIES OF THE DISPERSION WITH HYPERDISPERSANT Viscosity-reducing properties Viscosity-reducing properties Influence of anchoring group Influence of solvatable chain

  12. STABILIZATION PROPERTIES OF THE DISPERSION WITH HYPERDISPERSANT Deposition curve of magnetic dispersion Viscosity stability of the ink with hyperdispersant

  13. METHOD OF USE OF HYPERDISPERSANTS • MINIMAL RESIN REDUCED RESIN SOLIDS--LOWERED VISCOSITY & STABILITY • ADDING HYPERDISPERSANT IMPROVED STABILITY FURTHER REDUCED VISCOSITY • IMPROVING PIGMENT CONTENT HIGH PIGMENT / VEHICLE RATIO HIGH STABILITY, NORMAL VISCOSITY

  14. NOTATION FOR USE OF HYPERDISPERSANT • ADDED BEFORE PIGMENTS, FILLERS AND OTHER INGREDIENTS • ADDING SURFACTANTS DURING LET-DOWN OR LATER STAGES • DOSAGE DEPENDS ON SURFACE AREA(ABOUT 2MG/M2)

  15. ADVANTAGES OF HYPERDISPERSANTS • FAST WETTING, SHORTER MILLING TIME, IMPROVED PRODUCTIVITY • HIGH PIGMENT / VEHICLE RATIO, LESS ENERGY AND LABOUR COST • REDUCED VISCOSITY, IMPROVED RHEOLOGICAL PROPERTIES • IMPROVED DISPERSING STABILITY, IN AVOID OF RE-DISPERSION

  16. ADVANTAGES OF HYPERDISPERSANTS • WIDE COMPATIBILITY OF MILLBASE • NOT EASY TO BE OXIDIZED, LESS SURFACE WASTAGE PRODUCED • HYDROPHOBIC DISPERSANTS NO HYDROPILIC FILM INDUCED • COMPLETE WETTING AND BETTER APPLICATION QUALITIES

  17. CH Hyperdispersant • Counter part

  18. HYPERDISPERSANT SELECTION • ..\sszl\Echyn.htm • ..\sszl\Echym.htm • ..\sszl\Echyq.htm • ..\sszl\Echsl.htm

  19. HYPERDISPERSANT OFFSET INK APPLICATION

  20. BENEFITS • IMPROVED QUALITY HIGHER GLOSS GREATER INTENSITY MORE TRANSPARENCY • HIGHER PRODUCTIVITY SHORTER DISPERSION TIMES HIGHER PIGMENT CONTENT

  21. BENEFITS • MORE FLEXIBILITY • MORE VERSATILE MILLBASE HEATSET AND SHEETFET FROM SAME MILLBASE • MORE STABLE CONCENTRATES ABILITY TO TRANSPORT

  22. HYPERDISPERSANT FOR OFFSET INKS • HYPERDISPERSANT SELECTION • FOR LITHOL RUBINE / RUBINE TONER USE CH-5 ONLY • FOR PHTHALOCYANINE BLUE OR CARBON BLACK USE CH-5 + CH-11B • FOR DIARYLIDE YELLOW USE CH-5 + CH-22

  23. TYPICAL DOSAGE • (SHOWN AS WEIGHT OF PIGMENT) • RUBINE-------8%----CH-5 • BLUE---------10%----3:1 CH-5:CH-11B • YELLOW---10%---3:1 CH-5:CH-22 • BLACK------4%--10% CH-5 (DEPENDS ON THE SPECIAL SURFACE OF CARBON BLACK)

  24. GUIDELINES FOR USE • REDUCING RESIN SOLID TO 30-40% IN MILLBASE • HOLD BACK IN MILLBASE AS MUCH AS POSSIBLE GELLED VEHICLE OR GELLING AGENT • ADDING HIGHER PROPORTIONS OF GELLED VEHICLE / GELLING AGENT AT THE LET-DOWN STAGE TO COMPENSATE

  25. TYPICAL FORMULATIONHEATSET / SHEETFET MILLBASE

  26. TYPICAL FORMULATIONGRINDING VEHICLE

  27. TYPICAL FORMULATIONLET-DOWN VARNISHES

  28. TYPICAL FORMULATIONFINAL INK FORMULATIONS

  29. TYPICAL FORMULATIONFINAL INK FORMULATIONS

  30. CH-35 WATER PICK-UP REDUCING AGENT APPLICATION IN OFFSET PRINTING INK AND FLUSH

  31. BENEFITS OF CH-35 • REDUCING EMULSIFICATION, IMPROVING THE FLUIDITY, TRANSFERRING AND PRINTING DENSITY OF OFFSET INK • REDUCING WATER PICK-UP, FAST CREATING WATER BALANCE • ACCELERATING THE OUT-COMING OF WATER IN FLUSH • CONVENIENT TO USE

  32. METHOD OF USE OF CH-35 • ADDED IN THE VEHICLE DURING THE PREPARATION PROCESS OF INK OR FLUSH,OR ADDED IN THE INK PRODUCT • COMPLETELY MIXED WITH VEHICLE • AT THE DOSAGE OF 0.2-0.4%

  33. CH-1 HYPERDISPERSANT APPLICATION IN MASTERBATCH AND PLASTIC COMPOUNDS

  34. BENIFITS OF CH-1 • REDUCED PIGMENT COST • IMPROVED PRODUCTIVITY • IMPROVED PRODUCT QUALITY • REDUCED MANUFACTURE COST • IMPROVED PROCESSING • NO OBVIOUS ADVERSE EFFECTS

  35. METHOD OF USE OF CH-1 • Charge polymer to high speed blender or tumbler • Add CH-1 and blend thoroughly with polymer (2min/1800rpm blender or 5min tumbling) • Add pigments, fillers, processing aids and other essential ingredients and continue blending. (1min/1800rpm blending or 15min tumbling) • Process resultant blend in normal manner. e.g. extrusion,internal mixing, or 2-roll milling.

  36. TYPICAL FORMULATION OF CH-1 IN PE MASTERBATCH

  37. TYPICAL FORMULATION OF CH-1 IN RIGID PVC--WINDOW PROFILE COMPOUND

  38. TYPICAL FORMULATION OF CH-1 IN PVC BOTTLE COMPOUND

  39. TYPICAL FORMULATIONFLEXIBLE PVC--CABLE • FORMULATION OF TBLS • TRIBASIC LEAD SULPHATE 80PHR • LEAD 5PHR; • DOP 8PHR; • SNOWCAL70 5PHR

  40. TYPICAL FORMULATION OF CH-1 IN ABS

  41. TYPICAL FORMULATION OF CH-1 IN PS

  42. CH-2 HYPERDISPERSANT APPLICATION IN PLASTICISER DISPERSION

  43. CH-2 HYPERDISPERSANT FOR PLASTICISER DISPERSION • BENEFITS • LOW VISCOSITY, GOOD FLOW AND PUMPABILITY • HIGH PIGMENT CONTENT, IMPROVED PRODUCTIVITY • MORE NEWTONIAN RHEOLOGY • IMPROVED COLOUR STRENGTH

  44. CH-2 HYPERDISPERSANT FOR PLASTICISER DISPERSION • BENEFITS • SHORTER MILLING TIMES, LOWER ENERGY CONSUMPTION, LOWER LABOUR AND FIXED COSTS • LESS COLOUR SEPARATIO • WIDE COMPATIBILITY • NO ADVERSE EFFECT ON PLASTICS

  45. METHOD OF USE OF CH-2 • ADDED AND DISSOLVED INTO PLASTICISER BEFORE ADDING OTHER INGREDIENTS • AT DOSAGE OF ABOUT 1--5% OF THE TOTAL WEIGHT OF PIGMENTS AND FILLERS • HIGH PIGMENT LOADING

  46. TYPICAL FORMULATION OF CH-2 IN PLASTICISER DISPERSION

  47. CH-6 HYPERDISPERSANT APPLICATION IN PLASTICISER DISPERSION

  48. CH-6 HYPERDISPERSANT FOR PLASTICISER DISPERSION • BENEFITS • LOW VISCOSITY, GOOD FLOW AND PUMPABILITY • HIGH PIGMENT CONTENT, IMPROVED PRODUCTIVITY • MORE NEWTONIAN RHEOLOGY • IMPROVED COLOUR STRENGTH

  49. CH-6 HYPERDISPERSANT FOR PLASTICISER DISPERSION • BENEFITS • SHORTER MILLING TIMES, LOWER ENERGY CONSUMPTION, LOWER LABOUR AND FIXED COSTS • LESS COLOUR SEPARATIO • WIDE COMPATIBILITY • NO ADVERSE EFFECT ON PLASTICS

  50. METHOD OF USE OF CH-6 • ADDED AND DISSOLVED INTO PLASTICISER BEFORE ADDING OTHER INGREDIENTS • AT DOSAGE OF ABOUT 5-15% OF THE TOTAL WEIGHT OF CARBON BLACK OR ORGANIC PIGMENTS • HIGH PIGMENT LOADING

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