Technical paper Seven performance reasons to change to a C10
Technical paper Seven performance reasons to change to a C10 plasticizer Superior technical performance of PVC plasticizers is critical to many applications, particularly outdoors where longevity and low maintenance are demanded.
Seven performance reasons to change to a C10 plasticizer
7 reasons for choosing C10 plasticizers Volatility – the low volatility of C10 plasticizers is perhaps one of the most important reasons why C10 plasticizers are more durable and are ideal for use in higher operating temperature applications such as cables wires and automotive interiors.
Seven Performance Reasons To Change To A C10 Plasticizer - Scribd
Migration – coupled to low volatility, C10 plasticizers offer very low migration for stable longer life The Magnificent Seven performance and for a better toxicological profile. 1. Volatility – the low volatility of C10 plasticizers is perhaps one of the most important reasons why C10 6. Density – C10 plasticizers lower density means that
Seven performance reasons to change to a C10 plasticizer
performance reasons to change to a C10 plasticizer Anders Magnusson BU Market Development Manager 2 Superior technical performance and greater sustainability of PVC plasticizers are critical to many applications, particularly outdoors (roofing membranes and tarpaulins).
Evonik optimizes the production of plasticizer alcohols
Besides 2-PH, the company also produces the plasticizer alcohol isononanol (INA) on a world-scale level. With a capacity for both alcohols of more than 400,000 metric tons annually, Evonik is the largest manufacturer of C9/C10 plasticizer alcohols in Europe. The plasticizer alcohol 2-PH is produced using the so-called oxo reaction.
- Why is DEHP a good plasticizer?
- Phthalates play an important role in plastics and rubber around the world, accounting for more than 80% of all PVC plasticizers, and DEHP represents at least 60% of this amount due to its good performance and low price.
- Which plasticizers are used in stretch PVC films?
- Considering the tensile properties, all samples will probably show adequate performance when used as stretch PVC films with slight differences between them as follows: The plasticizers ATBC, DEHT and polyadipate showed lower plasticization efficiency than the others since samples 2, 4 and 6 showed the highest tensile strength values.
- Which plasticizer has better tensile strength?
- The plasticizers ATBC, DEHT and polyadipate showed lower plasticization efficiency than the others since samples 2, 4 and 6 showed the highest tensile strength values. The vegetable oil-based plasticizers showed better mechanical performance (values similar/near to DEHA) than the other plasticizers evaluated.
- Are plasticizers esters?
- Plasticizers are almost invariably esters because of their specific requirements for interacting with the polymer. Plasticizers in flexible PVC must be closely associated with the amorphous part of the polymer at room temperature, and plasticizers must be fairly permanent.
- Are vegetable oil based plasticizers better?
- The vegetable oil-based plasticizers showed better mechanical performance (values similar/near to DEHA) than the other plasticizers evaluated. The infrared spectra of PVC films can indicate the class of plasticizer used in the formulation as well as the strength of the plasticizer-PVC interactions.
- Is the plasticizer fully acetylated monoglyceride based on hydrogenated castor oil safe?
- The plasticizer fully acetylated monoglyceride based on hydrogenated castor oil (SNS) has been approved by European Union for food contact use without any restrictions. The plasticizer has no specific migration limit .
