Silicone composition and its application as an additive in detergent composition to enhance foamability and cleaning effect

A silicone composition and composition technology, applied in the preparation of detergent compositions, detergent compounding agents, detergent mixture compositions, etc., can solve the problems of no description and reduction of active ingredients in detergent compositions, etc.

Active Publication Date: 2021-08-17
WACKER METROARK CHEM PVT
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0024] Thus, while there are solutions available for removing stains from stained / hard surfaces and enhancing cleaning performance, there is no description of reducing active ingredients in detergent compositions and maintaining similar stain removal performance while having the same or Solutions for enhanced foam formation or enhanced performance and maintenance or enhanced cleaning

Method used

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  • Silicone composition and its application as an additive in detergent composition to enhance foamability and cleaning effect
  • Silicone composition and its application as an additive in detergent composition to enhance foamability and cleaning effect
  • Silicone composition and its application as an additive in detergent composition to enhance foamability and cleaning effect

Examples

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preparation example Construction

[0078] In the preparation step of the siloxane used in the silicone composition, in the second step of the process of the invention, allyloxy (polyethylene oxide) (available under the Polymeg trademark from IGL, India).

[0079] Allyloxy (polyoxyethylene) or ethylenically unsaturated polyethers are preferably selected from polyethylene glycol allyl methyl ether CH 2 =CHCH 2 (OC 2 h 4 ) n OH; CH 2 =CHCH 2 (OC 3 h 6 ) n OH; polyalkylene glycol allyl methyl ether (EO / PO random) CH 2 =CHCH 2 O(C 2 h 4 O) l (C 3 h 6 O) k H, where l and k are an integer of 2 to 100, preferably 19 to 40, and more preferably 19 to 30. A non-limiting example of a preferred ethylenically unsaturated polyether is allyloxy(polyethylene oxide) (EO 25) available under the Polymeg trademark from IGL, India. The ethylenically unsaturated polyethers are used in an amount of 1 to 1.1 mol of ethylenically unsaturated groups (C=C) in the polyether per 1 mol of Si-bonded hydrogen in the hydrosilo...

Embodiment 1a

[0116] Example 1a) Preparation of 25-polyoxyalkylene-siloxane (according to the invention):

[0117] step 1 – Synthesis of H-siloxane: 1500g of Wacker H-siloxane (hydrogen concentration of 1.6%, ie 24 moles of H), 4192g of disiloxane (Wacker DM 0 65) (25.88 moles) and PNCl of 200ppm 2 The catalyst is loaded into the SS reactor, the set temperature is 105°C, the temperature is overshot to 110-115°C, and the set temperature is 108-110°C. The reaction was continued for 4 hours, and then the distillation was started at 180° C. in temperature increments of 5° C. (2 h for 10 lt reactor time for complete distillation to obtain the rearranged H-siloxane. The yield was 75% to 80 % of rearrangement products rearranged H-siloxane.

[0118] step 2- Synthesis of polyoxyalkylene silicones: 1800 g of rearranged H-siloxane (6.081 moles) (from step 1) and raising the temperature in the reactor to 100-102°C. The reactor is equipped with controlled agitation and heating and has facilities...

Embodiment 1b

[0119] Example 1b) Preparation of average 24-polyoxyalkylene-siloxane (according to the invention):

[0120] step 1 – Synthesis of H-siloxane: 1500g of Wacker H-siloxane (hydrogen concentration of 1.6%, ie 24 moles of H), 4192g of disiloxane (Wacker DM 0 65) (25.88 moles) and PNCl of 200ppm 2 The catalyst is loaded into the SS reactor, the set temperature is 105°C, the temperature is overshot to 110-115°C, and the set temperature is 108-110°C. Continue the reaction for 4 hours, then start to distill at 180° C. with temperature increments of 5° C. (2 h for a 10 lt reactor for complete distillation to obtain rearranged H-siloxanes, and then dissolve the catalyst in soda powder and Rearranged H-siloxanes with yields of 75% to 80% of rearranged products.

[0121] step 2 - Synthesis of polyoxyalkylene silicones: 1800 g of rearranged H-siloxane (6.081 moles) (from step 1) and raising the temperature in the reactor to 100-102°C. The reactor is equipped with controlled agitatio...

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Abstract

The invention to provide an foamable silicone composition, that would easily integrate or mix with the powder or liquid detergent composition having reduced active ingredient having enhanced or similar detergency effect i.e. foaming and dirt removal characteristics and having no negative effect on the detergency and the preferred foaming nature of the detergent during the washing cycle. The foamable silicone composition comprising a silicone composition comprising a siloxane comprising a polyoxyalkylene group having 19 to 30 oxyalkylene group, with the proviso that the siloxane contain at least one oxyalkylene radical per molecule.

Description

[0001] field of invention [0002] The present invention relates to a foamable silicone composition which can be easily integrated or mixed with a powder or liquid detergent composition having reduced active ingredients, said composition having enhanced or similar cleaning benefits, i.e. stable Sudsing, detergency properties, and no negative impact on detergency and preferably sudsing of the detergent during the wash cycle. [0003] In today's world, there are a large number of detergents used in millions of households all over the world, as well as in different industries. These detergents use high active detergents for good sudsing and cleaning. Anionic surfactants are the main components in detergents, and a larger amount of anionic surfactants enters the water system through rinse water. Larger amounts of detergents with anionic surfactants in the water system can upset the balance and create unfavorable conditions for aquatic organisms. Such entry into water bodies will ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C11D1/82C08G77/46C08L83/12
CPCC08G77/46C08L83/12C11D1/82C08G77/18C08G77/20C11D3/0094C11D3/373C11D11/0058C11D3/2093
Inventor 阿米特·库马·保罗卡隆·查特吉阿琼·戈什帕拉伯·蒙达尔
Owner WACKER METROARK CHEM PVT
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