Influence of a nitrogen-containing oil-based plasticizer on
title={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}, author={Feng Guodong and Hu Yun and Jia Puyou and Yan Ma and Zhou Yonghong}, journal={Industrial Crops and Products},
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
Data provider: National Agricultural Library
Plasticization and thermal behavior of hydroxyl and nitrogen
In comparison to petroleum-based plasticizers ( e.g. DOTP), the mechanical test shows that bio-based GEHTMA-3 displays better mechanical properties, which means that GEHTMA-3 could endow PVC resins with well-balanced properties of flexibility and strength.
Effect of flame retardants on mechanical and thermal
A soy oil-based polyol (HSBP) was synthesized from epoxidized soy oil through a ring-opening reaction with distilled water. A phosphorus-containing flame retardant (DOPO–HSBP) was synthesized through the reaction of 9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide (DOPO) and HSBP. A nitrogen-containing flame reta
- Does oil modification affect mechanical properties of NBR materials?
- The influence of oil modification on the mechanical properties of NBR materials was evaluated by carrying out IRHD−m measurements to analyze and compare the effect of both (Bio-oil 1 and Bio-oil 2) plasticizers on hardness of NBR specimen.
- 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.
- 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.
- Do elastomeric materials contain different plasticizers from renewable sources?
- This contribution deals with the mechanical and fracture mechanical behaviour of elastomeric materials containing different plasticizers from renewable sources.
- 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).
- 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).
