Influence of a nitrogen-containing oil-based plasticizer on
Influence of a nitrogen-containing oil-based plasticizer on mechanical, thermal stability and fire performance of plasticized poly(vinyl chloride) and study of its mechanism of flame retardancy with Py–GC/MS | Semantic Scholar
Influence of a nitrogen-containing oil-based plasticizer on
Influence of a nitrogen-containing oil-based plasticizer on mechanical, thermal stability and fire performance of plasticized poly (vinyl chloride) and study of its mechanism of flame retardancy with Py–GC/MS - ScienceDirect Abstract Introduction Section snippets References (32) Cited by (20) Recommended articles (6) Industrial Crops and Products
Influence of a nitrogen-containing oil-based plasticizer on
[21] [22][23] tung oil, [24] sun ower oil, [25,26] cardanol, [27,28] waste cooking oil and other bio-based plasticizers. Dekai Liu reported that oleic acid based eater derived from vegetable oil
Influence of a nitrogen-containing oil-based plasticizer on
Data provider: National Agricultural Library
Plasticization and thermal behavior of hydroxyl and nitrogen
Abstract Hydroxyl and nitrogen rich group-containing tung-oil-based ester (GEHTMA-1, GEHTMA-2, GEHTMA-3 and GEHTMA-4) plasticizers were successfully synthesized from tung-maleic anhydride and utilized to plasticize poly (vinyl chloride) (PVC).
- Can bioplasticizers improve the processing properties of rubber compounds?
- Addition of the bioplasticizer strongly improve the processing properties of the rubber compounds. Desirable mechanical properties and thermal stability can be achieved by adding the bioplasticizers in rubber compounds. Rubber-filler interaction, plasticizing efficiency, and cross-linking density decide the tensile strength of the polymer matrix.
- Can non-bornylized soybean oil be used as a bioplasticizer for rubber?
- Non-bornylized soybean oil (NSO) obtained from SO and dicyclopentadiene (DCPD), used as an efficient bioplasticizer for rubber. It could enhance the ultimate tensile and thermal properties of CB-filled SBR vulcanizates with a lower glass transition temperature (Tg) than conventional petroleum plasticizer.
- What factors influence the design of efficient plasticizers?
- Numerous parameters such as solubility, polarity, and structural compatibility are considered important and can influence the designing of efficient plasticizers. In this context, a plethora of research has given their structural attributes along with their compatibility with different elastomers and plastics.
- Can polymerized soybean oil be used as a plasticizer?
- Polymerized soybean oils can also be employed as the plasticizers for the NR and SBR as an alternative of a naphthenic oil (Petrović et al., 2013). Adducts of levulinic acid esters and epoxidized unsaturated fatty acids have been used as plasticizers for a range of industrial polymers (Selifonov, 2013).
- How do bioplasticizers interact with rubber matrices?
- Bioplaticizers are capable of building a network with the rubber matrices through H-bonding and ionic interactions (Jong, 2011). Due to such interactions, bioplasticizers along with carbon black are acted as reinforcing fillers in NR and SBR composites (Hogan et al., 2012; Jong, 2008).
- What are vegetable oils based plasticizers?
- Vegetable oils based plasticizers are mainly extracted from the oleaginous plants (Cashew nutshell, soybean, castor bean, colza, sunflowers, grape seed, palm, and linseed) and trees including chestnut, pine and tung trees (Fig. 4) (Meier et al., 2007; Bocqué et al., 2016).
