THIXCIN R
THIXCIN R
Hydrogenated Castor Oil
Molecular Formula: C57H110O9
Molecular Weight: 939.4779 g/mol
InChI Key: WCOXQTXVACYMLM-UHFFFAOYSA-N
IUPAC Name: 2,3-bis(12-hydroxyoctadecanoyloxy)propyl 12-hydroxyoctadecanoate
THIXCIN R additive is a white, finely divided, non-discoloring, non-hygroscopic powder, completely organic in nature.
THIXCIN R is a specially designed thixotrope for organic systems based on solvents and binders with low solubility parameters.
THIXCIN R is a non-hygroscopic, organic derivative of castor oil.
Acts as a rheology modifier for organic systems based on non-polar solvents and for powder coatings.
Adds thixotropic body and controls viscosity.
Controls liquid penetration into porous surfaces, and sag without impairing flow.
THIXCIN R improves degassing and flow and leveling of powder coatings.
THIXCIN R reduces settling of pigments and extenders.
Produces optimum leveling in paints.
Possesses very good package stability, and no adverse effect on durability and light-fastness.
Designed for applications like alkyd paints, wood stains, solvent free epoxy paints, hammer finish paints and radiator paints.
THIXCIN R is also used in textured paints, high build paints, gel coats and surfacers and powder coatings.
For the highest degree of thixotropy in aliphatic liquids, Thixcin R additive is the product to use.
In addition to its effective rheological properties, THIXCIN R gives water repellency, stabilizes emulsions and acts as a stiffening agent in lipsticks and ointments.
THIXCIN R can also be used as a dry binder in pressed powder systems (Where high- temperature resistance is needed, BENTONE or BENTONE GEL additives are recommended).
Thixcin R is a castor oil derivative.
THIXCIN R requires temperature-controlled activation within the range 55-60°C (130-140°F) and high-shear mixing to develop its full structure.
Thixcin R is in compliance with Ecocert the ecological and organic cosmetics standards.
APPLICATIONS of THIXCIN R:
• Creams and Lotions
• Eye Pencils & Sticks
• Eye Shadow
• Mascara
• Lip Gloss
• Lipstick
• Lip Balm
• Sun Care Products
• Nail Polish
ADVANTAGES of THIXCIN R:
• Add thixotropic body and controlled viscosity.
• Promotes pigment and filler suspension.
• Controls flow and leveling.
• Provides sag and slump control.
• Control liquid penetration into porous surfaces.
• Provides excellent package stability.
• Non-yellowing.
• Easy to disperse.
The main effects on production (gelator concentration, dissolver rotational speed, heating and cooling times, etc.) of hydrocarbon gels are discussed in detail.
The experiments were done with 250 ml amounts of Jet A-1 / THIXCIN R gels in a small laboratory dissolver facility.
Thixcin R (a ricinolic acid derivative) was chosen as gelator because in comparison to silica or bentonite gellants, THIXCIN R is a combustible organic material and would not change the energy content of the fuel very much.
For characterisation and quality control of the gels most of the experiments were done with a double-barrel capillary viscosimeter.
The reason for using this instrument instead of a rotational viscosimeter is that the shear rates necessary for gel atomisation in a rocket injector are much higher (> 105/s) than in rotational viscosimeters which have been used by many other authors.
Also measurement of extensional viscosity, which plays an important but often ignored role in atomisation, was achieved with this instrument.
Several test series were conducted in the laboratory facility.
Variation of production temperature within the range of 40 to 60°C showed that the best results could be achieved by keeping the temperature at 50°C.
In another test series, the concentration of gelator was varied in the range of 4 to 7% by weight.
The results show that at least gelator concentrations of more than 5% and dissolver rotational velocities of 1000 rpm are necessary to get stable gels.
The influence of mixing time was investigated in another test series.
The results demonstrate that a mixing time not longer than 2.5 hours is sufficient for completion of gel formation.
The experiments should be considered as a first step to optimisation of the gel production process.
THIXCIN R is a non-hygroscopic derivative of castor oil that imparts a high degree of thixotropic thickening in cosmetics mineral, vegetable and silicones oils, as well as low-polarity aliphatic solvents.
THIXCIN R provides thixotropy and imparts good pay-off in stick products; improves product stability when used in the oil phase of emulsions; and can be used as a binder in pressed powder formulations.
THIXCIN R by Elementis is a non-animal rheological additive for cosmetics and toiletries.
THIXCIN R is non-hygroscopic derivative of castor oil which offers a high degree of thickening in cosmetics mineral, vegetable, silicone oils and low polarity aliphatic solvent.
THIXCIN R provides thixotropy and improves product stability when used in the oil phase of emulsions.
THIXCIN R can be used as a binder in pressed powder formulations.
THIXCIN R controls viscosity, reduces settling of pigments and extenders, produces optimum flow, enhances leveling and improves stick pay-off & compatibility.
THIXCIN R is suitable for use in creams, lotions, eye pencils & sticks, eye shadows, mascaras, lip glosses, lipsticks, lip balms, nail-polishes and sun care products.
KEY PROPERTIES of THIXCIN R:
• Adds thixotropic body and controls viscosity
• Reduces settling of pigments and extenders
• Produces optimum flow
• Enhances levelling
• Improves stick pay-off
• Provides binding in pressed powders
• Improves compatibility
THIXCIN R should be added to the emulsion’s oil phase or, in non-emulsion-based formulations, at the beginning of the dispersion process, preferably by pre-mixing the solvent or oil for 5 minutes before other components are added.
THIXCIN R should be subjected to as much shear as possible during processing to develop its full properties.
However, when using THIXCIN R, an incorporation temperature range of 55-65°C must be observed; below 55°C, thixotropy will not develop; above 65°C, soft gel-like particles may appear on cooling the formulation.
The presence of higherpolarity oils and solvents will lower this upper temperature limit.
To avoid the particles forming, continuous stirring should be maintained until the product has cooled to below 45°C.
Also known as:
Thixcin r
Trixcin r
Tixcin r
Tri-12-hydroxystearin
Glycerol tris(12-hydroxystearate)
Glyceryl tris(12-hydroxystearate)
THIXCIN R is a castor oil derivative.
Application: electronic chemical, solder paste thixotropic agent
Physical properties
THIXCIN R composition: organic derivative oil of castor oil plant
Color/form: white superfine powder
Density 25 ° C: 1.02g/cm
Ash content: 0%3
Melting point: 85℃(185℉)
Temperature:
43℃ – 54℃。
(Liquid product)(95 ° F – 130 ° F)
Where can THIXCIN R be used and what major benefits can be achieved?
THIXCIN R is suitable for various cosmetic and personal care formulations, including colour cosmetics, skin care, sun care and hair care.
Product forms can be emulsions, oil gels, sticks and powders, etc.
As an effective rheological additive, THIXCIN R builds viscosity, suspends particulates, offers a high degree of thixotropy and helps control flow.
THIXCIN R can greatly enhance the physical stability of formulations, in either emulsions or single oil phase formulations.
In solid product forms, such as lipsticks or hair styling sticks, THIXCIN R also functions as a stiffening agent.
Additional benefits may include improved pay-off, added lubricity and a buttery feel.
In body wash formulations THIXCIN R proved to be an effective rheological modifier and can be used to achieve the desired false body effect.
THIXCIN Rs water repellency is very useful in products such as lipgloss and lipstick, etc.
THIXCIN R can also be used as a dry binder in pressed powders.
What is the preferred procedure for dispersing and activating THIXCIN R?
Unless limited by specific formulation requirements, the following incorporation procedure is generally suggested for optimal activation of THIXCIN R:
1. Disperse THIXCIN R powder with stirring into the whole, or part, of the oil phase at room temperature, or at C.
2. Heat the THIXCIN R and oil mixture to C, if mixed at room temperature.
3. Apply high shear mixing for about 20 minutes while maintaining the temperature at C to allow full activation.
4. Cool to below 35 C with low to medium shear stirring.
What mixing equipment is suggested?
During the 20 minute period of shear, a silverson homogeniser, high shear stirrer or another similar type of mixing equipment may be used.
Propeller stirring is recommended during the cooling process.
Is it possible to formulate THIXCIN R into my system with varied processing conditions?
Although the suggested incorporation procedure proved to be satisfactory in most systems, other processing conditions may be needed, depending on the requirements of the formulation.
In addition, for the convenience of formulation, optional ways to incorporate THIXCIN R may also be required.
We studied the processing of THIXCIN R in a series of single solvent systems, as well as personal care formulations, and found that it is possible to activate THIXCIN R under varied conditions.
The results depend on the solvent system and the formulation, and should be evaluated case by case.
One major indicator of unsuccessful incorporation of THIXCIN R is the seeding phenomenon.
What possible ways are there to incorporate THIXCIN R into different systems without the undesirable ”seeding” phenomenon?
Ideally, we suggest to follow the preferred incorporation procedure outlined earlier, which ensures optimal activation without seeding.
In the product formulation process, a master batch can be prepared containing a higher level of THIXCIN R, e.g. 10%, dispersed in a suitable liquid using high shear mixing equipment.
This can then be incorporated into the rest of the formulation with ordinary mixing, without the need of additional high shear.
As indicated earlier, if the overall formulation process does not allow us to follow the preferred THIXCIN R incorporation method.
Two lipgloss formulations containing seeding.
We know that whether seeding occurs, the same level of THIXCIN R were heated to due to THIXCIN R exposure to higher 85 C, mixed and then cooled without stirring.
temperatures, such as 85 C, is largely dependent The formulation on the left shows seeding, on the particular oil/solvent system.
During the cool-down process, maintaining the temperature at C for 20 minutes, while applying high shear, may help reduce the risk of seeding.
The formulation can be cooled to room temperature with stirring.
In a single oil phase formulation, higher temperatures may be needed to melt certain ingredients within the formulation.
THIXCIN R can be added and activated during the cool-down process by maintaining C for 20 minutes, while applying high shear mixing to reduce the chance of seeding.
For a stick formulation, the formula may solidify above or around C.
In this case, THIXCIN R may be successfully incorporated even at higher temperatures without seeding, but this largely depends on the system.
In cases where seeding is observed, due to low activation temperatures, correction can be made by bringing the batch to C, while applying high shear for 20 minutes. 7
Application: alkyd resin coating-solvent-free epoxy coating-radiator paint-wood stain-adhesive, jointing and sealing agent-plastic sol, organic sol-seal agent for bottom of car-gel coat and unsaturated pulp Polyester-powder coating-cosmetics-pharmacy
Keep THIXCIN R in cool and dry place.
Shelf life THIXCIN R can be kept for four years
Inventory control:
First-in and first-out.
Shelf life is half a year.
Note: the information is for reference only.
Pharmacology:
Hydrogenated Castor Oil is a wax-like hydrogenated derivative of castor oil.
Hydrogenated castor oil has many industrial applications.
Molecular Weight: 939.4779 g/mol
Molecular Formula: C57H110O9
Hydrogen Bond Donor Count: 3
Hydrogen Bond Acceptor Count: 9
Rotatable Bond Count: 56
Exact Mass: 938.814985 g/mol
Monoisotopic Mass: 938.814985 g/mol
Topological Polar Surface Area: 140 A^2
Heavy Atom Count: 66
Formal Charge: 0
Complexity: 983
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 3
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently Bonded Unit Count: 1
Synonyms:
1. Thixcin R
2. Trixcin R
3. Tixcin R
4. Tri-12-hydroxystearin
5. Glycerol Tris(12-hydroxystearate)
6. Glyceryl Tris(12-hydroxystearate)
7. 12-hydroxystearic Acid Triglyceride
8. 12-hydroxyoctadecanoic Acid, Glyceryl Ester
9. 139-44-6
10. Thixcin E
11. Nsc2389
12. 12-hydroxyoctadecanoic Acid, Triester With Glycerol
13. Octadecanoic Acid, 12-hydroxy-, Triester With Glycerol
14. 2,3-bis(12-hydroxyoctadecanoyloxy)propyl 12-hydroxyoctadecanoate
15. 1,2,3-propanetriyl Tris(12-hydroxyoctadecanoate)
16. Octadecanoic Acid, 12-hydroxy-, 1,2,3-propanetriyl Ester
17. Castorwax
18. Trihydroxystearin
19. Castorwax Nf
20. Rice Syn Wax
21. Unitina Hr
22. Castorwax Mp-70
23. Castorwax Mp-80
24. Castor Oil Hydrogenated
25. Hydrogenated Castor Oil
26. Caswell No. 486a
27. Castor Oil, Hydrogenated
28. Olio Di Ricino Idrogenato
29. Unii-zf94ap8mey
30. Schembl296177
31. Ac1l18f6
32. Castor Oil, Hydrogenated [nf
33. Unii-06yd7896s3
34. Glyceryl Tri(12-hydroxystearate)
35. Nsc 2389
36. Nsc-2389
37. Einecs 205-364-6
38. Einecs 232-292-2
39. Olio Di Ricino Idrogenato [italian]
40. Epa Pesticide Chemical Code 031604
41. Octadecanoic Acid, Triester With Glycerol
42. An-23156
43. Ai3-19740
44. 1,2,3-propanetriol Tri(12-hydroxystearate)
45. 3b2-5618
46. 12-hydroxyoctadecanoic Acid, 1,2,3-propanetriyl Ester
47. Octadecanoic Acid, 12-hydroxy-, 1,2, 3-propanetriyl Ester
48. 2,3-bis((12-hydroxyoctadecanoyl)oxy)propyl 12-hydroxyoctadecanoate
49. 1,3-bis[(12-hydroxyoctadecanoyl)oxy]propan-2-yl 12-hydroxyoctadecanoate
50. Octadecanoic Acid, 12-hydroxy-, 1,1′,1”-(1,2,3-propanetriyl) Ester
51. 117313-82-3
52. 194498-31-2
53. 37281-13-3
54. 37359-50-5
55. 38264-86-7
56. 39433-74-4
57. 400628-60-6
58. 53468-68-1
59. 69522-63-0
60. 8001-78-3
61. 8030-79-3
62. 8041-92-7
63. 8041-93-8
64. 8041-94-9
65. 81544-51-6