Ciba RHEOVIS Rheology Modifiers

3. Acrylic Acid Monomers

4. Polymerisation of Acrylic Acid Monomers

5. Polymers based on Acrylic Acid

6. Application of polymers

7.

8.

9.

10. Alkali Swellable Emulsion - Principle of Operation

13. Alkali Swellable Emulsion - Viscosity vs. pH

15. Benefit of Associative Polymers

17. Applications for Anionic RHEOVIS Polymers Associative polymers recommended in formulations having: high level of electrolyte (e.g. anionic surfactants) and/or high pH => RHEOVIS ATA & RHEOVIS ATX Non-associative polymer recommended in formulations having: - low level of electrolyte and/or neutral pH => RHEOVIS ATN To find the most suitable polymer it is recommended to test all three anionic polymers RHEOVIS ATA, ATX and ATN for a specific detergent formulation.

18. Incorporation of Anionic RHEOVIS Polymers Post-addition is the easier way Good stirring required (100-200 rpm / avoid high shear rates) Pre-dilution required only if pH of the solution > 12 Adjust the pH of the formulation after addition of the polymer Incorporation levels: 0.5% to 5% polymer as supplied

19. Laundry Detergent

20. Laundry Detergent

21. Hand Dishwashing Detergent Sodium Lauryl Sulfate 7.0 % Sodium Myreth Sulfate 7.0 % Lauryl Polyglycoside 4.0 % Betaine 1.1 % Ethanol 5.0 % RHEOVIS AT- 3.0 % Water 72.9 % (pH adjusted to 8.0)

22. Hand Dishwashing Detergent

23. Hard Surface Cleaner

24. Hard Surface Cleaner

25.

26.

27. Swelling of LDP in Water

28. RHEOVIS CDP & CDE � Practical advices Pre- and post-addition possible Homogenize/stir the polymer dispersion before use Incorporate slowly the polymer under stirring Thickening performance depends on the formulation Suited for batch and continuous production processes Avoid high shear rates

29.

30. Beads Polymer

31. Incorporation levels of Cationic RHEOVIS Polymers Rinse Conditioners 0.1 to 0.5% polymer as supplied Acid Cleaners 0.5 to 5.0% polymer as supplied

32. RHEOVIS CSP � Practical advices Pre- and post-addition possible in acid cleaners Pre-addition in softener formulations - after the cationic surfactant Avoid high shear rates Pre-mixing in surfactant improves polymer�s solubility Spread / Incorporate slowly the polymer under stirring 1- Add polymer to the vortex of the formulation, vigorously stirred. 2- Wet the polymer with a water-miscible solvent (ethanol) before addition into water (recommended in Lab. tests) 3- Use an Eductor

33. RHEOVIS CSP � Eductor in Production

34. DHTDMAC Fabric Rinse Conditioner

35. DHTDMAC Fabric Rinse Conditioner

38. Improved Storage Stability with RHEOVIS CSP

39. Acidic Bathroom Cleaner

40. Acidic Bathroom Cleaner

41. RHEOVIS CDP & CDE � Main Benefits Effective at low concentration Improves the aesthetic appearance of your formulation Compatible with cationic and nonionic surfactants Compatible with almost all acids Opacifying properties �Easy-to-use� liquid form

42. RHEOVIS CSP � Main Benefits Shows excellent thickening performances and stabilizing properties in fabric rinse conditioners Enables transparent formulations Effective at low concentration Compatible with common raw materials used in Home & Fabric Care formulations (e.g. nonionic surfactants, solvents, acids) Non-dusting & free flowing polymer

43. Conclusion

46. RHEOVIS� Inside

47. RHEOVIS� Inside

48. RHEOVIS� Inside

49. RHEOVIS� Inside