PalatinolTOTM
Palatinol TOTM is a primary, branched monomeric plasticizer for vinylhomopolymer and copolymer resins. Palatinol TOTM is suggested for use in those end-use areas where extreme low volatility is required. Palatinol TOTM can be blended with Palatinol 11P-E to optimize cost-performance in medium to high temperature compounds. PalatinolTOTM Global
US4654390A - Monomeric plasticizers for halogen-containing
This invention relates generally to a monomeric plasticizer for halogen-containing resins which has permanence (low volatility), low temperature flexibility, high efficiency and good alkane...
Monomeric Plasticizers - Handbook of Vinyl Formulating
This chapter contains sections titled: Introduction. Mechanism of Plasticization. Plasticizer Classification. Plasticizer Performance Comparisons. Application Areas. Future of Plasticizers. References
CHAPTER 1 Formulation Development - Wiley
resin and particular plasticizer. Certain resins are designed for rapid plasticizer uptake. Plasticizer type (polarity), viscosity, and solvent power are key factors. These, however, are usually determined by the application rather than ease of incorporation. Typically, processing is adjusted to suit the formulation, by such steps as preheating
Monomeric plasticizers for halogen-containing resins
A composition having utility as a plasticizer for halogen-containing resins is a mixture of (a) at least two diesters of terephthalic acid or (b) at least two triesters of trimellitic acid.
- Can halogen-bonding Nanoarchitectonics be used in supramolecular plasticizers?
- Halogen-Bonding Nanoarchitectonics in Supramolecular Plasticizers for Breaking the Trade-Off between Ion Transport and Mechanical Strength of Polymer Electrolytes for High-Voltage Li-Metal Batteries The low ionic conductivity of poly (ethylene oxide) (PEO)-based polymer electrolytes at room temperature impedes their practical applications.
- How to choose a plasticizer?
- The choice of the plasticizer is dependent on the requirements that have to be met for the final product and the conditions around that product’s use. This may include low volatility, high permanence, low temperature flexibility, flame retardancy, high thermal stability and saponification resistance.
- How can plasticizers be used to make polymers soft and flexible?
- By adding plasticizers to compatible polymers, the materials can be modified in such a way that they become soft and flexible by decreasing their glass transition temperature. Plasticizers are classified according to their molecular structure into monomeric or polymeric types.
- How are plasticizers classified?
- Plasticizers are classified according to their molecular structure into monomeric or polymeric types. The choice of the plasticizer is dependent on the requirements that have to be met for the final product and the conditions around that product’s use.
- How do plasticizers affect polymers?
- Plasticizers are substances which, by virtue of their polar or polarizable structure, weaken the secondary valence forces of polymers. By adding plasticizers to compatible polymers, the materials can be modified in such a way that they become soft and flexible by decreasing their glass transition temperature.
- What are plasticizers & modifiers?
- Plasticizers and Modifiers are part of the Polymer Additive Business Unit and comprise of a wide range of high-quality products under the brand names Mesamoll ®, Adimoll ®, Unimoll ®, Ultramoll ®, K-FLEX ®, Vitroflex ®, Modulast ®, Uniplex ®, Triacetin, Acetine, and Baymod®. Mesamoll ® is a phthalate-free universal monomeric plasticizer.
