Vestinol® 9 DINP Plasticizer
Vestinol® 9 DINP Plasticizer
SKU:VES-661606
High-purity Vestinol® 9 DINP Plasticizer for flexible PVC applications, ensuring superior flexibility and optimal performance.
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Vestinol® 9 DINP Plasticizer is a premium-grade, clear, and colorless plasticizer, ideal for various applications in flexible PVC materials. With a minimum ester content of 99.6%, it offers exceptional flexibility and ease of processing. This high-quality plasticizer meets stringent industry standards and is widely used in adhesives, coatings, elastomers, and sealants for consumer and institutional needs.
Product Specifications
Additional Information
Diisononyl Phthalate (DINP) C6H4 (COOC9H19)2, is a clear, colorless, and almost odorless liquid chemical. It is soluble in most organic solvents. DINP is primarily used as a PVC plasticizer. As compared to DOP, the low volatility and better endurability of DINP significantly reduces the fume emissions during the processing procedure and improves its permanence in the final product.Vestinol® 9 DINP (Diisononyl Phthalate) is a phthalate ester used mainly as a plasticizer. Plasticizers are substances added to plastics to increase their flexibility, transparency, durability, and longevity. They are primarily used to soften polyvinyl chloride.
Applications
Phthalates in general are used in a large variety of products, from enteric coatings of pharmaceutical pills and nutritional supplements to viscosity control agents, gelling agents, film formers, stabilizers, dispersants, lubricants, binders, emulsifying agents, and suspending agents. End applications include adhesives and glues, agricultural adjuvants, building materials, personal care products, children’s toys, modeling clay, waxes, paints, printing inks and coatings, as well as textiles.Specifically, approximately 95 percent of DINP produced is used in PVC as a plasticizer. More than half of the remaining 5 percent is used in the production of polymers other than PVC (e.g. rubber). The remaining DINP is used in non-polymer applications including anti-corrosion paints, anti-fouling paints, lacquers, inks, adhesives and sealants.The advantageous properties of the plasticizer Vestinol® 9 (DINP) are apparent in every method of thermoplastics processing, and also in the processing of plastisols, as well as in the performance of the finished products.This n-butane-based low-branched grade is known to give good cold flexibility and low plastisol viscosity. The higher molecular weight of DINP also reduces plastisol thickening.Vestinol® 9 (DINP) can be mixed with any other commercially available plasticizer and is fully compatible with PVC - even in highly plasticized formulations.In summary - Vestinol® 9 (DINP) has a wide variety of beneficial properties, both during processing and in finished products, making this the plasticizer of choice for PVC applications.
History
The development of cellulose nitrate in 1846 led to the manufacture of castor oil which was patented in 1856 for use as the first plasticizer. In 1870, camphor became the more favored plasticizer for cellulose nitrate. Phthalates were first introduced in the 1920s and quickly replaced the volatile and odorous camphor. In 1931, the commercial availability of polyvinyl chloride and the development of di-2-ehthylhexyl phthalate began the boom of the plasticizer PVC industry, the primary use of Diisononyl Phthalate, commonly referred to as DINP.
Note
This information and all further technical advice are based on our present knowledge and experience. However, it implies no liability or other legal responsibility on our part, including with regard to existing thired party intellectual property rights, especially patent rights. In particular, no warranty, whether express or implied, or guarantee of product properties in the legal sense is intended or implied. We reserve the right to make any changes according to technological progress or further developments. The customer is not released from the obligation to conduct careful inspection and testing of incoming goods. Performance of the product described herein should be verified by testing, which should be carried out only by qualified experts in the sole responsibility of a customer, Reference to trade names used by other companies is neither a recommendation, nor does it imply that similar products could not be used.
Physical Data Literature Data Flash Point
200 ºC
Physical Data Literature Data Heat Of Evaporation At Boiling Poi
207 kJ/Kg
Physical Data Literature Data Hydroxyl Number
0.2 mg KOH/g
Physical Data Literature Data Ignition Temperature
400 ºC
Physical Data Literature Data Method For Hydroxyl Number
Photometric
Physical Data Literature Data Molar Mass
418.6
Physical Data Literature Data Pourpoint
-54 ºC
Physical Data Literature Data Saponification Number
265 mg KOH/g
Physical Data Literature Data Solution Temperature
134 ºC
Physical Data Literature Data Specific Heat At 20 Degree Celsius
1.78 kJ/Kg K
Physical Data Literature Data Test Method For Flash Point
German Institute for Standardization International Organization for Standardization (DIN ISO 2719)
Physical Data Literature Data Test Method For Ignition Temperatu
American Society for Testing and Materials (ASTM E 659) | German Institute for Standardization (DIN 51 794)
Physical Data Literature Data Test Method For Pourpoint
German Institute for Standardization International Organization for Standardization (DIN ISO 3016)
Physical Data Literature Data Test Method For Saponification Num
American Society for Testing and Materials (ASTM D 94) | German Institute for Standardization European Standards International Organization for Standardization (DIN EN ISO 3681)
Physical Data Literature Data Test Method For Volatility Loss 2
British Standards (BS 1995/1953)
Physical Data Literature Data Test Method For Volume Resistivity
German Institute for Standardizatio International Electrotechnical Commission (DIN IEC 60 093)
Physical Data Literature Data Test Method Solution Temperature
German Institute for Standardizatio (DIN 53 408)
Physical Data Literature Data Volatility Loss 2 Hours H130 Degre
0.1 % (m/m)
Physical Data Literature Data Volume Resistivity At 20 Degree Ce
1 x 1012 Ω·cm
Plasticizer Overview
Plasticizers are polymer additives that serve to increase the polymer’s flexibility, elongation and ease of processing. In other words, they make the polymer more workable. In technical terms, the addition of a plasticizer generally causes a reduction in the cohesive intermolecular forces along polymer chains. The chains can then move more freely relative to one another, hence reducing the stiffness of the polymer.The use of plasticizers began in the mid 1860s when castor oil was added to Cellulose Nitrate. The most commonly measured physical effects include melt viscosity, elasticity modulus, and the glass transition temperature. Other types of plasticizers have been used through the years, but in the late 1930s, phthalates were introduced because they were believed to be less toxic. The two most common plasticizers used today are di-2-ethylhexyl phthalate (DEHP) and di-isononyl phthalate (DINP), both of which are generally used in the manufacture of PVC related products.
Properties
Phthalate esters are the dialkyl esters of phthalic acid. The name phthalate is derived from phthalic acid, which itself is derived from the word "naphthalene." When added to plastics, phthalates allow the long molecules to slide against one another. The phthalates have a clear liquid consistency and show low water solubility, low oil solubility and low volatility. The polar carboxyl group contributes little to the physical properties of the phthalates, except in very small short chain moieties, such as ethyl or methyl groups. Phthalate esters are colorless, odorless liquids produced by reacting phthalic anhydride with an appropriate alcohol (usually 6 to 13 carbon atoms in length).
Specifications Appearance
Clear without any Visible Impurities
Specifications Applicationusage
Adhesives | Coatings | Elastomers | Polymer Additives | Sealants
Specifications Chemical Name
Di-Iso-Nonyl Phthalate (DINP)
Specifications Density At 20 Degree Celsius C Temperature
0.972 to 0.977 g/ml
Specifications Dynamic Viscosity At 20 Degree Celsius C Temperat
72 to 82 mPa s
Specifications Maximum Acid Number
0.04 mg KOH/g
Specifications Maximum Color Scale American Public Health Associ
30 mg pt/l
Specifications Maximum Water Content
0.05 % (m/m)
Specifications Minimum Ester Content
99.6 % (m/m)
Specifications Refractive Index At 20 Degree Celsius C Temperatu
1.484 to 1.488
Specifications Test Method For Density At 20 Degree Celsius C Te
American Society for Testing and Materials (ASTM D 4052) | German Institute for Standardization (DIN 51 757)
Specifications Test Method For Dynamic Viscosity At 20 Degree Ce
American Society for Testing and Materials (ASTM D 445) | German Institute for Standardization (DIN 53 015)
Specifications Test Method For Maximum Acid Number
American Society for Testing and Materials (ASTM D 1045) | German Institute for Standardization European Standards International Organization for Standardization (DIN EN ISO 2114)
Specifications Test Method For Maximum Color Scale American Publ
American Society for Testing and Materials (ASTM D 1209) | German Institute for Standardization European Standards International Organization for Standardization (DIN EN ISO 6271)