Technical Information
steel, e. g. A 283 grade. If severe demands are imposed on the product quality, we recommend to store it in tanks constructed from stainless steel, e. g. AISI TP 316 Ti (German steel No. 1.4541) or aluminum (AlMg3). It is recommended to take steps to ensure the exclusion of atmospheric moisture,
Technical Information
High viscosity polymeric plasticizer for PVC and paints. Good resistance to oils and aliphatic hydrocarbons. It has only a slight tendency to migrate into plastics. Palamoll 646 is approved for use in plasticized PVC articles for food contact applications. Chemical nature Polymeric plasticizer derived from adipic acid and butanediol
Technical Information
Medium viscosity polymeric plasticizer for PVC and paints. Good resistance to oil and aliphatic hydrocarbons. Palamoll 632 is approved for use in plasticized PVC articles for food contact applications. Chemical nature Polymeric plasticizer derived from adipic acid and 1,2-propanediol CAS number 55799-38-7
Technical Information
steel, e. g. A 283 grade. If severe demands are imposed on the product quality, we recommend to store it in tanks constructed from stainless steel, e. g. AISI TP 316 Ti (German steel No. 1.4541) or aluminum (AlMg3 ). It is recommended to take steps to ensure the exclusion of atmospheric moisture, e.
Technical Information
Low viscosity polymeric plasticizer for PVC. Resistant to oils, fats, aliphatic hydrocarbons and bitumen. It has only a slight tendency to migrate into plastics. It is well suited for the manufacture of plastisols. Chemical nature Polymeric plasticizer derived from adipic acid and polyhydric alcohols CAS number 208945-13-5
- How are plasticizers classified?
- Plasticizers are classified based on their chemical composition. It is important to understand the influence of structural elements on the properties of plasticizers and their effect on base polymers. For example, the presence of elements like alcohols in a homologous series of phthalates, and adipates.
- What are natural product type plasticizers?
- Vegetable oil derivatives are the most widely used natural product type plasticizers. Products consisting of triglyceride esters of unsaturated fatty acids (e.g., soybean oil, linseed oil) in which the double bonds in the fatty acid residues have typically been epoxidized have been commercial products for decades.
- What is a primary plasticizer?
- A primary plasticizer enhances elongation, softness and flexibility of polymer. They are highly compatible with polymers and can be added in large quantities. For example: up to 50% of vinyl gloves are made up of plasticizers, which make the PVC flexible and soft enough to wear.
- What is a polymeric plasticizer?
- Polymeric plasticizers are typically made from aliphatic dibasic acids such as adipic acid and diols. They are primarily valued for their permanence. These plasticizers are generally classified as polyesters, not adipates. Many have low solvency for PVC and high viscosity. Both these factors can make processing f-PVC compounds difficult.
- What is a plasticizer chemistry?
- Plasticizers are the most used additives in the plastics industry. They are generally available as non-volatile, colorless liquids. They improve the properties of the polymer. With several plasticizer chemistries available in the market choosing the right one can be daunting. In this guide, you will read more about:
- What is a DINP plasticizer?
- DINP plasticizers are employed extensively in indoor and outdoor applications. Being less volatile, it is found effective in applications where products are exposed to relatively high temperatures and need more resistance to degradation. DINP helps vinyl products in the following ways:
