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DISODIUM SEBACATE (DSS)

Disodium Sebacate (DSS) is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor in lubricants. DSS is approved under CFR 21.178.3570 for incidental food contact in greases, and DSS has been used to replace sodium nitrites in aluminum greases. Its fine particle size allows it to be added to the grease during the cool down period with no additional processing. Disodium Sebacate is also used in coolant for aircraft and automotive applications.

CAS No.: 17265-14-4
EC No.: 241-300-3

Synonyms:
DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Disodium sebacate; 17265-14-4; Decanedioic acid, disodium salt; Sodium sebacate; Sebacic Acid Disodium Salt; Decanedioic Acid Disodium Salt; UNII-J3YU3MBH4Z; Decanedioic acid, sodium salt (1:2); J3YU3MBH4Z; SEBACICACIDDISODIUMSALT; Disodium Decanedioate; Decanedioic acid,sodium salt (1:2); CCRIS 4021; EINECS 241-300-3; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Sebacic acid, disodium salt; sodium decanedioate; disodium,decanedioate; ACMC-209e4y; Disodium sebacate, AldrichCPR; SCHEMBL306520; CTK4D4300; DTXSID50889660; ANW-22592; MFCD00070501; AKOS025294714; FT-0758171; S0270; W-107863; Q27281169; 5-AMINO-1-(4-NITRO-PHENYL)-1H-PYRAZOLE-4-CARBOXYLICACID; Sebacic acid disodium salt; Disodium decanedioate; Sodium sebacate; Decanedioic Acid Disodium Salt; Sebacic Acid Disodium Salt; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Disodium Decanedioate; decanedioic acid sodium salt; decanedioic acid, disodium salt; decanedioic acid, sodium salt (1:2); disodium;decanedioate; sebacic acid, disodium salt; Sodium sebacate; Decanedioic acid, disodium salt; Decanedioic acid, sodium salt (1:2); Sebacic acid, disodium salt; [ChemIDplus] Disodium decanedioate; [FDA]; Disodium sebacate [ACD/IUPAC Name]; 17265-14-4 [RN]; 241-300-3 [EINECS]; Decanedioic acid disodium salt; Decanedioic acid, sodium salt (1:2) [ACD/Index Name]; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Decanedioic acid,sodium salt (1:2); Dinatriumsebacat [German] [ACD/IUPAC Name]; disodium decanedioate; J3YU3MBH4Z; MFCD00070501; Sébacate de disodium [French] [ACD/IUPAC Name]; Sebacic acid disodium salt; UNII:J3YU3MBH4Z; [17265-14-4]; decanedioic acid sodium salt; DECANEDIOIC ACID, DISODIUM SALT; DISODIUM SEBACATE|DISODIUM DECANEDIOATE; Disodiumdecanedioate; EINECS 241-300-3; Sebacic acid, disodium salt; SEBACICACIDDISODIUMSALT; Sodium sebacate; UNII-J3YU3MBH4Z; IRGACOR DSS G; sodiumsebacate; Dinatriumsebacat; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DISODIUMDECANEDIOATE; disodium decandioate; Disodium Sebacate >Sebacate disodium salt; Disodium Sebacate Powder; SEBACIC ACID DISODIUM SALT; IRGACOR DSS G; sodiumsebacate; Dinatriumsebacat; DISODIUM SEBACATE; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); disodium decandioate; DISODIUMDECANEDIOATE; SEBACIC ACID DISODIUM SALT; DECANEDIOIC ACID DISODIUM SALT; SEBACIC ACID DISODIUM SALT 97+%; Decanedioic Acid Disodium Salt Sebacic Acid Disodium Salt Disodium Decanedioate; Decanedioic acid, Disodium salt; Disodium decanedioate; Decanedioicacid, disodium salt; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Sebacic acid, disodium salt ; Disodiumdecanedioate; Sodium sebacate; Sebacic acid disodium salt; Disodium decanedioate; Disodium sebacate; Sodium sebacate; DECANEDIOIC ACID DISODIUM SALT; DISODIUM SEBACATE; IRGACOR DSS G; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); SEBACIC ACID DISODIUM SALT; sodiumsebacate; SEBACIC ACID DISODIUM SALT 97+%; Decanedioic Acid Disodium Salt; Disodium Decanedioate; Sebacic Acid Disodium Salt; Disodium Sebacate; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Disodium sebacate; 17265-14-4; Decanedioic acid, disodium salt; Sodium sebacate; Sebacic Acid Disodium Salt; Decanedioic Acid Disodium Salt; UNII-J3YU3MBH4Z; Decanedioic acid, sodium salt (1:2); J3YU3MBH4Z; SEBACICACIDDISODIUMSALT; Disodium Decanedioate; Decanedioic acid,sodium salt (1:2); CCRIS 4021; EINECS 241-300-3; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Sebacic acid, disodium salt; sodium decanedioate; disodium,decanedioate; ACMC-209e4y; Disodium sebacate, AldrichCPR; SCHEMBL306520; CTK4D4300; DTXSID50889660; ANW-22592; MFCD00070501; AKOS025294714; FT-0758171; S0270; W-107863; Q27281169; 5-AMINO-1-(4-NITRO-PHENYL)-1H-PYRAZOLE-4-CARBOXYLICACID; Sebacic acid disodium salt; Disodium decanedioate; Sodium sebacate; Decanedioic Acid Disodium Salt; Sebacic Acid Disodium Salt; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Disodium Decanedioate; decanedioic acid sodium salt; decanedioic acid, disodium salt; decanedioic acid, sodium salt (1:2); disodium;decanedioate; sebacic acid, disodium salt; Sodium sebacate; Decanedioic acid, disodium salt; Decanedioic acid, sodium salt (1:2); Sebacic acid, disodium salt; [ChemIDplus] Disodium decanedioate; [FDA]; Disodium sebacate [ACD/IUPAC Name]; 17265-14-4 [RN]; 241-300-3 [EINECS]; Decanedioic acid disodium salt; Decanedioic acid, sodium salt (1:2) [ACD/Index Name]; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Decanedioic acid,sodium salt (1:2); Dinatriumsebacat [German] [ACD/IUPAC Name]; disodium decanedioate; J3YU3MBH4Z; MFCD00070501; Sébacate de disodium [French] [ACD/IUPAC Name]; Sebacic acid disodium salt; UNII:J3YU3MBH4Z; [17265-14-4]; decanedioic acid sodium salt; DECANEDIOIC ACID, DISODIUM SALT; DISODIUM SEBACATE|DISODIUM DECANEDIOATE; Disodiumdecanedioate; EINECS 241-300-3; Sebacic acid, disodium salt; SEBACICACIDDISODIUMSALT; Sodium sebacate; UNII-J3YU3MBH4Z; IRGACOR DSS G; sodiumsebacate; Dinatriumsebacat; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DISODIUMDECANEDIOATE; disodium decandioate; Disodium Sebacate >Sebacate disodium salt; Disodium Sebacate Powder; SEBACIC ACID DISODIUM SALT; IRGACOR DSS G; sodiumsebacate; Dinatriumsebacat; DISODIUM SEBACATE; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); disodium decandioate; DISODIUMDECANEDIOATE; SEBACIC ACID DISODIUM SALT; DECANEDIOIC ACID DISODIUM SALT; SEBACIC ACID DISODIUM SALT 97+%; Decanedioic Acid Disodium Salt Sebacic Acid Disodium Salt Disodium Decanedioate; Decanedioic acid, Disodium salt; Disodium decanedioate; Decanedioicacid, disodium salt; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); Sebacic acid, disodium salt ; Disodiumdecanedioate; Sodium sebacate; Sebacic acid disodium salt; Disodium decanedioate; Disodium sebacate; Sodium sebacate; DECANEDIOIC ACID DISODIUM SALT; DISODIUM SEBACATE; IRGACOR DSS G; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS); SEBACIC ACID DISODIUM SALT; sodiumsebacate; SEBACIC ACID DISODIUM SALT 97+%; Decanedioic Acid Disodium Salt; Disodium Decanedioate; Sebacic Acid Disodium Salt; Disodium Sebacate; DISODIUM SEBACATE; DİSODYUM SEBASAT; disodyum sebasat; Disodium Sebacate (DSS)

DISODIUM SEBACATE (DSS)

APPLICATION
Disodium Sebacate (DSS) is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor in lubricants. DSS is approved under CFR 21.178.3570 for incidental food contact in greases, and DSS has been used to replace sodium nitrites in aluminum greases. Its fine particle size allows it to be added to the grease during the cool down period with no additional processing. Disodium Sebacate is also used in coolant for aircraft and automotive applications.

Disodium sebacate
CAS Nr.
17265-14-4
Body
Disodium sebacate is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor in lubricants. 
Disodium sebacate has been used to replace sodium nitrites in aluminum greases.

Highlights

The solubilities of disodium sebacate were measured by a gravimetric method.

Three different models were used to correlate the experimental solubility data.

Dissolution thermodynamic properties of disodium sebacate were calculated and discussed.

Abstract
The solubility data of disodium sebacate in three kinds of water + organic solvent mixtures, including (water + methanol), (water + acetone) and (water + DMF), were experimentally determined at temperatures from (283.15 to 328.15) K by a gravimetric method. The results show that the solubility of disodium sebacate increases with increase of temperature in binary solvent mixtures at constant solvent composition, whereas it decreases with the increase of the mole fraction of organic solvent. The modified Apelblat equation, the λh model and the NRTL model were applied to correlate the solubility data in binary solvent mixtures. In addition, the dissolution thermodynamic properties of disodium sebacate in different binary solvent mixtures, including the Gibbs energy change, entropy and enthalpy, were also calculated and discussed based on the NRTL model and experimental solubility data.

Disodium Sebacate is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor lubricants.

Tag: Disodium Sebacate
Formulation 101: Lithium Complex Grease
Posted on October 15, 2018 - Product News

Lithium-Complex GreaseThe first use of grease dates back to ancient times, when man first used animal fats and vegetable oils to reduce friction. Analysis of these crude lubricants shows that lime was sometimes mixed in as a thickener, making this the first complex grease.

The science of lubricating technology has come a long way since ancient times. Simply put, lubricating grease is defined as a solid-to-semi fluid dispersion of a thickening agent in a liquid lubricant. Beyond that different ingredients can be added to impart special properties.

Traditionally, metallic soaps such as calcium stearate, sodium stearate, and lithium stearate are used as thickeners. Fatty acids such as lithium 12-hydroxystearate can also be used. Lithium greases are by far the most popular grease worldwide, because they have excellent heat tolerance like the sodium greases and the water resistance of calcium greases.

Lithium Complex greases first entered the market in 1962. According to NLGI International, Today Lithium Complex grease accounts for 42% of all North American Grease production. Lithium Complex Greases are favored over traditional Lithium greases because of their higher dropping points and improved heat resistance. They also work well in low temperatures.

A basic recipe for grease is below:

Thickener    10 – 15 %
Base Oil    80 – 90%
Performance Additives    5 – 10%
A tremendous amount of formulation science is put into achieving all the performance properties of a premium grease. Because greases are formulated for their intended applications, and the properties of the grease are very important, several laboratory tests are used to assess grease properties.

ChemCeed’s Grease Product Line
12‐Hydroxystearic Acid (12‐HSA)
Adipic Acid
Azelaic Acid
Boric Acid
Sebacic Acid
Dibutyl Sebacate (DBS)
Dimethyl Sebacate (DMS)
Dioctyl Sebacate (DOS)
Disodium Sebacate (DSS)
Lithium Hydroxide
To receive a complete FREE formulation guide for Lithium Complex Grease, please fill out the form below. This guide will include advice on which specific fatty acids, complexing agents, and performance additives such as corrosion inhibitors can be used. The guide also includes information about the manufacturing process, the standardized laboratory tests, and performance properties of Lithium Complex Grease.

Product Feature: Disodium Sebacate (DSS)
Disodium Sebacate (DSS) is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor in lubricants. DSS is approved under CFR 21.178.3570 for incidental food contact in greases. DSS has been used to replace sodium nitrites in aluminum greases. Its fine particle size allows it to be added to the grease during the cool down period with no additional processing. Please inquire with a sales representative for more details.

Product Feature: Castor Oil
Castor Oil is derived from the castor seed, a major natural and renewable feedstock for our line of castor derivative products. Castor beans grow best in hot, dry climates with sandy soil such as India or Brazil. The seed makes up about 65-85% of the bean, and from it the oil is extracted. Castor oil content can range from 35-52% depending on variety and growing conditions.  It finds applications in everything from soap to polymers to lubricants. From castor oil many products in our line such as 12-Hydroxy Stearic Acid, Sebacic Acid, Disodium Sebacate, Dimethyl Sebacate and Dioctyl Sebacate are derived.  These products are commonly used for complexed greases in the lubricant industry. 

View Castor Oil Sales Specifications
To learn more about Castor Oil, please see:
Spilling the Beans About Castor Oil and its Derivatives
A New Development Using Plant Oils In Bioplastics
Advantages of Synthetic Ester Base Stocks
Green Chemicals
Tags: 12-Hydroxy stearic Acid, castor oil, Dimethyl Sebacate, Dioctyl Sebacate, Disodium Sebacate, sebacic acid

Abstract
The solubility data of disodium sebacate in three kinds of water + organic solvent mixtures, including (water + methanol), (water + acetone) and (water + DMF), were experimentally determined at temperatures from (283.15 to 328.15) K by a gravimetric method. The results show that the solubility of disodium sebacate increases with increase of temperature in binary solvent mixtures at constant solvent composition, whereas it decreases with the increase of the mole fraction of organic solvent. The modified Apelblat equation, the λh model and the NRTL model were applied to correlate the solubility data in binary solvent mixtures. In addition, the dissolution thermodynamic properties of disodium sebacate in different binary solvent mixtures, including the Gibbs energy change, entropy and enthalpy, were also calculated and discussed based on the NRTL model and experimental solubility data.

APPLICATION
Disodium Sebacate (DSS) is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor in lubricants. DSS is approved under CFR 21.178.3570 for incidental food contact in greases, and DSS has been used to replace sodium nitrites in aluminum greases. Its fine particle size allows it to be added to the grease during the cool down period with no additional processing. Disodium Sebacate is also used in coolant for aircraft and automotive applications.

Disodium sebacate
CAS Nr.
17265-14-4
Body
Disodium sebacate is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor in lubricants. 
Disodium sebacate has been used to replace sodium nitrites in aluminum greases.

Highlights

The solubilities of disodium sebacate were measured by a gravimetric method.

Three different models were used to correlate the experimental solubility data.

Dissolution thermodynamic properties of disodium sebacate were calculated and discussed.

Abstract
The solubility data of disodium sebacate in three kinds of water + organic solvent mixtures, including (water + methanol), (water + acetone) and (water + DMF), were experimentally determined at temperatures from (283.15 to 328.15) K by a gravimetric method. The results show that the solubility of disodium sebacate increases with increase of temperature in binary solvent mixtures at constant solvent composition, whereas it decreases with the increase of the mole fraction of organic solvent. The modified Apelblat equation, the λh model and the NRTL model were applied to correlate the solubility data in binary solvent mixtures. In addition, the dissolution thermodynamic properties of disodium sebacate in different binary solvent mixtures, including the Gibbs energy change, entropy and enthalpy, were also calculated and discussed based on the NRTL model and experimental solubility data.

Disodium Sebacate is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor lubricants.

Tag: Disodium Sebacate
Formulation 101: Lithium Complex Grease
Posted on October 15, 2018 - Product News

Lithium-Complex GreaseThe first use of grease dates back to ancient times, when man first used animal fats and vegetable oils to reduce friction. Analysis of these crude lubricants shows that lime was sometimes mixed in as a thickener, making this the first complex grease.

The science of lubricating technology has come a long way since ancient times. Simply put, lubricating grease is defined as a solid-to-semi fluid dispersion of a thickening agent in a liquid lubricant. Beyond that different ingredients can be added to impart special properties.

Traditionally, metallic soaps such as calcium stearate, sodium stearate, and lithium stearate are used as thickeners. Fatty acids such as lithium 12-hydroxystearate can also be used. Lithium greases are by far the most popular grease worldwide, because they have excellent heat tolerance like the sodium greases and the water resistance of calcium greases.

Lithium Complex greases first entered the market in 1962. According to NLGI International, Today Lithium Complex grease accounts for 42% of all North American Grease production. Lithium Complex Greases are favored over traditional Lithium greases because of their higher dropping points and improved heat resistance. They also work well in low temperatures.

A basic recipe for grease is below:

Thickener    10 – 15 %
Base Oil    80 – 90%
Performance Additives    5 – 10%
A tremendous amount of formulation science is put into achieving all the performance properties of a premium grease. Because greases are formulated for their intended applications, and the properties of the grease are very important, several laboratory tests are used to assess grease properties.

ChemCeed’s Grease Product Line
12‐Hydroxystearic Acid (12‐HSA)
Adipic Acid
Azelaic Acid
Boric Acid
Sebacic Acid
Dibutyl Sebacate (DBS)
Dimethyl Sebacate (DMS)
Dioctyl Sebacate (DOS)
Disodium Sebacate (DSS)
Lithium Hydroxide
To receive a complete FREE formulation guide for Lithium Complex Grease, please fill out the form below. This guide will include advice on which specific fatty acids, complexing agents, and performance additives such as corrosion inhibitors can be used. The guide also includes information about the manufacturing process, the standardized laboratory tests, and performance properties of Lithium Complex Grease.

Product Feature: Disodium Sebacate (DSS)
Disodium Sebacate (DSS) is a castor oil derivative which can be used in cosmetics, detergents, and as a corrosion inhibitor in lubricants. DSS is approved under CFR 21.178.3570 for incidental food contact in greases. DSS has been used to replace sodium nitrites in aluminum greases. Its fine particle size allows it to be added to the grease during the cool down period with no additional processing. Please inquire with a sales representative for more details.

Product Feature: Castor Oil
Castor Oil is derived from the castor seed, a major natural and renewable feedstock for our line of castor derivative products. Castor beans grow best in hot, dry climates with sandy soil such as India or Brazil. The seed makes up about 65-85% of the bean, and from it the oil is extracted. Castor oil content can range from 35-52% depending on variety and growing conditions.  It finds applications in everything from soap to polymers to lubricants. From castor oil many products in our line such as 12-Hydroxy Stearic Acid, Sebacic Acid, Disodium Sebacate, Dimethyl Sebacate and Dioctyl Sebacate are derived.  These products are commonly used for complexed greases in the lubricant industry. 

View Castor Oil Sales Specifications
To learn more about Castor Oil, please see:
Spilling the Beans About Castor Oil and its Derivatives
A New Development Using Plant Oils In Bioplastics
Advantages of Synthetic Ester Base Stocks
Green Chemicals
Tags: 12-Hydroxy stearic Acid, castor oil, Dimethyl Sebacate, Dioctyl Sebacate, Disodium Sebacate, sebacic acid

Abstract
The solubility data of disodium sebacate in three kinds of water + organic solvent mixtures, including (water + methanol), (water + acetone) and (water + DMF), were experimentally determined at temperatures from (283.15 to 328.15) K by a gravimetric method. The results show that the solubility of disodium sebacate increases with increase of temperature in binary solvent mixtures at constant solvent composition, whereas it decreases with the increase of the mole fraction of organic solvent. The modified Apelblat equation, the λh model and the NRTL model were applied to correlate the solubility data in binary solvent mixtures. In addition, the dissolution thermodynamic properties of disodium sebacate in different binary solvent mixtures, including the Gibbs energy change, entropy and enthalpy, were also calculated and discussed based on the NRTL model and experimental solubility data.

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