Disclosed herein is a soap composition including a soap active material and a fragrance composition including at least one profragrance compound, where the at least one profragrance compound releases a fragrance compound upon reacting with oxygen. Also disclosed herein is a soap article including the soap composition as well as a method of conferring, improving, enhancing or modifying perfume retention of the fragrance composition over a prolonged period of time in a soap composition.

Disclosed herein is a soap composition including a soap active material and a fragrance composition including at least one profragrance compound, where the at least one profragrance compound releases a fragrance compound upon reacting with oxygen. Also disclosed herein is a soap article including the soap composition as well as a method of conferring, improving, enhancing or modifying perfume retention of the fragrance composition over a prolonged period of time in a soap composition.

The invention relates to a process to make high water bars with a high speed extrusion process by using specific types and amounts of electrolytes in combination. The bars are produced with no negatives generally associated with use of electrolytes. Disclosed is an extruded soap bar composition wherein the bar comprises: a) 20 to 40% of water; b) 20 to 75% by wt. anhydrous soap; wherein C.sub.16 to C.sub.24 saturated soap comprises 12% to 45% by wt. of total bar. c) structurants comprises at least from 0.05 to 35% by wt., wherein the specific level of structurants is defined by the level of C16 to C24 saturated soap of (b) such that the total level of said C.sub.16 to C.sub.24 saturated soap and structurants are greater than 25%, and wherein said structurants are selected from the group consisting of starch, carboxymethylcellulose, inorganic particulates, acrylate polymers and mixtures thereof; d) electrolyte which is a combination of alkali metal chloride; and a secondary electrolytes selected from the group consisting of alkali metal citrate and alkali metal sulfate; and wherein the concentration of alkali metal chloride ([alkali metal chloride]); and of alkali metal citrate ([alkali metal citrate]), alkali metal sulfate ([alkali metal sulfate]) defined by level of water we use as follows: i. [alkali metal chloride]%=0.075×[water]−0.626; and ii. [alkali metal citrate]%=−0.0023×[water].sup.2+0.312×[water]−4.34; iii. [alkali metal sulfate]%=−0.0023×[water].sup.2+0.312×[water]−4.34; or iv. [alkali metal citrate and alkali metal sulfate]=−0.0023×[water].sup.2+0.312×[water]−4.34, wherein the calculated amount of the concentration of the electrolyte is plus or minus 15%.

The invention relates to a process to make high water bars with a high speed extrusion process by using specific types and amounts of electrolytes in combination. The bars are produced with no negatives generally associated with use of electrolytes. Disclosed is an extruded soap bar composition wherein the bar comprises: a) 20 to 40% of water; b) 20 to 75% by wt. anhydrous soap; wherein C.sub.16 to C.sub.24 saturated soap comprises 12% to 45% by wt. of total bar. c) structurants comprises at least from 0.05 to 35% by wt., wherein the specific level of structurants is defined by the level of C16 to C24 saturated soap of (b) such that the total level of said C.sub.16 to C.sub.24 saturated soap and structurants are greater than 25%, and wherein said structurants are selected from the group consisting of starch, carboxymethylcellulose, inorganic particulates, acrylate polymers and mixtures thereof; d) electrolyte which is a combination of alkali metal chloride; and a secondary electrolytes selected from the group consisting of alkali metal citrate and alkali metal sulfate; and wherein the concentration of alkali metal chloride ([alkali metal chloride]); and of alkali metal citrate ([alkali metal citrate]), alkali metal sulfate ([alkali metal sulfate]) defined by level of water we use as follows: i. [alkali metal chloride]%=0.075×[water]−0.626; and ii. [alkali metal citrate]%=−0.0023×[water].sup.2+0.312×[water]−4.34; iii. [alkali metal sulfate]%=−0.0023×[water].sup.2+0.312×[water]−4.34; or iv. [alkali metal citrate and alkali metal sulfate]=−0.0023×[water].sup.2+0.312×[water]−4.34, wherein the calculated amount of the concentration of the electrolyte is plus or minus 15%.

The present invention relates to a process for preparing a formulation comprising an alkali metal salt selected from the group consisting of alkali metal bicarbonate salts, alkali metal carbonate salts, alkali metal sesquicarbonate salts and combinations thereof, wherein said process comprises the step of extruding a paste-like composition comprising a functionalizing agent and the metal salt. The invention furthermore relates to a formulation obtainable from said process and to the use of this formulation in various applications such as in plastic foaming or in food and feed leavening compositions.

The present invention relates to an extruded soap bar composition. It more particularly relates to a soap bar composition which comprises low amount of soap where high amount of water can be incorporated. This is achieved by including selective amount of zeolite therein. The soap bars of the invention are easy to extrude and stamp.

The present invention relates to an extruded soap bar composition. It more particularly relates to a soap bar composition which comprises low amount of soap where high amount of water can be incorporated. This is achieved by including selective amount of zeolite therein. The soap bars of the invention are easy to extrude and stamp.

The invention relates to a process to make high water bars with a high speed extrusion process by using specific types and amounts of electrolytes in combination. The bars are produced with no negatives generally associated with use of electrolytes. Disclosed is an extruded soap bar composition wherein the bar comprises: a) 20 to 40% of water; b) 20 to 75% by wt. anhydrous soap; wherein C.sub.16 to C.sub.24 saturated soap comprises 12% to 45% by wt. of total bar. c) structurants comprises at least from 0.05 to 35% by wt., wherein the specific level of structurants is defined by the level of C16 to C24 saturated soap of (b) such that the total level of said C.sub.16 to C.sub.24 saturated soap and structurants are greater than 25%, and wherein said structurants are selected from the group consisting of starch, carboxymethylcellulose, inorganic particulates, acrylate polymers and mixtures thereof; d) electrolyte which is a combination of alkali metal chloride; and a secondary electrolytes selected from the group consisting of alkali metal citrate and alkali metal sulfate; and wherein the concentration of alkali metal chloride ([alkali metal chloride]); and of alkali metal citrate ([alkali metal citrate]), alkali metal sulfate ([alkali metal sulfate]) defined by level of water we use as follows: i. [alkali metal chloride] %=0.075×[water]−0.626; and ii. [alkali metal citrate] %=−0.0023×[water].sup.2+0.312×[water]−4.34; iii. [alkali metal sulfate] %=−0.0023×[water].sup.2+0.312×[water]−4.34; or iv. [alkali metal citrate and alkali metal sulfate]=−0.0023×[water].sup.2+0.312×[water]−4.34, wherein the calculated amount of the concentration of the electrolyte is plus or minus 15%.

The invention relates to a process to make high water bars with a high speed extrusion process by using specific types and amounts of electrolytes in combination. The bars are produced with no negatives generally associated with use of electrolytes. Disclosed is an extruded soap bar composition wherein the bar comprises: a) 20 to 40% of water; b) 20 to 75% by wt. anhydrous soap; wherein C.sub.16 to C.sub.24 saturated soap comprises 12% to 45% by wt. of total bar. c) structurants comprises at least from 0.05 to 35% by wt., wherein the specific level of structurants is defined by the level of C16 to C24 saturated soap of (b) such that the total level of said C.sub.16 to C.sub.24 saturated soap and structurants are greater than 25%, and wherein said structurants are selected from the group consisting of starch, carboxymethylcellulose, inorganic particulates, acrylate polymers and mixtures thereof; d) electrolyte which is a combination of alkali metal chloride; and a secondary electrolytes selected from the group consisting of alkali metal citrate and alkali metal sulfate; and wherein the concentration of alkali metal chloride ([alkali metal chloride]); and of alkali metal citrate ([alkali metal citrate]), alkali metal sulfate ([alkali metal sulfate]) defined by level of water we use as follows: i. [alkali metal chloride] %=0.075×[water]−0.626; and ii. [alkali metal citrate] %=−0.0023×[water].sup.2+0.312×[water]−4.34; iii. [alkali metal sulfate] %=−0.0023×[water].sup.2+0.312×[water]−4.34; or iv. [alkali metal citrate and alkali metal sulfate]=−0.0023×[water].sup.2+0.312×[water]−4.34, wherein the calculated amount of the concentration of the electrolyte is plus or minus 15%.

The present invention relates to a process for preparing a formulation comprising an alkali metal salt selected from the group consisting of alkali metal bicarbonate salts, alkali metal carbonate salts, alkali metal sesquicarbonate salts and combinations thereof, wherein said process comprises the step of extruding a paste-like composition comprising a functionalizing agent and the metal salt. The invention furthermore relates to a formulation obtainable from said process and to the use of this formulation in various applications such as in plastic foaming or in food and feed leavening compositions.