Developments of biobased plasticizers for compostable polymers in the
The development and utilization of biobased plasticizers derived from epoxidized soybean oil, castor oil, cardanol, citrate, and isosorbide have been broadly investigated. The synthesis of...
Optimization of Process Variables in the Synthesis of Tributyl Citrate
The relatively high citric acid conversion of 96.9% and TBC yield of 92.1% were achieved at 115°C. However, when the reaction temperature was higher than 115°C, the TBC yield did not increase obviously. Thus, the optimum reaction temperature for the esterification reaction of n-butanol with citric acid was 115°C. Figure 3
Effects of modified tributyl citrate as a novel environmentally
In this study, a novel environmentally friendly plasticizer, 12-14 alkyl ether tributyl citrate (AETBC), was synthesized via high-temperature ring-opening reaction, and its chemical structure was characterized by Fourier transform infrared (FTIR) spectroscopy and proton nuclear magnetic resonance (1 H NMR) spectroscopy.
Tributyl Citrate (TBC) – Mamta Polycoats
Tributyl Citrate (TBC) is an excellent replacement for phthalates and adipates as it has a matching plasticiser performance. It is commonly used in cosmetics, food contact films, and articles of plastic, and it is a fast-fusing plasticiser for technical applications. It has excellent compatibility with PVC, making it a well-suited and
Plasticizing effects of citrate esters on properties of poly
Triethyl citrate (TEC) and acetyl tributyl citrate (ATBC) were used as plasticizer for poly (lactic acid) (PLA). The treated and plasticized PLA at various concentrations were analyzed by...
- Why is tributyl citrate a new non-toxic plasticizer?
- Tributyl citrate (TBC) is a new non-toxic plasticizer, because it has good compatibility, high plasticizing efficiency, non-toxic and less volatile, weather resistance and other characteristics of broad interest, it is used as the preferred alternative green products in place of phthalic dimethyl esters.
- What is a reactive distillation model for tributyl citrate (TBC) production?
- Reconciliation of a reactive distillation (RD) model for tributyl citrate (TBC) production. A RD Industrial process for TBC production is designed and optimized. Homogeneous and heterogenous catalysts are assessed. Comparison with current industrial technology is presented. Economic and sustainability indicators are presented.
- What is tributyl citrate (TBC)?
- Specifically, tributyl citrate (TBC), that is produced via esterification of citric acid with n-butanol (BuOH), is a suitable functional substitute of phthalates in different applications including the manufacture of polyvinyl chloride and polylactic acid plastics , .
- Is tributyl citrate a good plasticizer for polylactide and polyhydroxybutyrate?
- The effectiveness of tributyl citrate (TbC) as plasticizer for polylactide (PLLA) and poly (hydroxybutyrate) (PHB) was analyzed in order to improve the ductility of these polymers and make them good candidates for food packaging applications.
- How do you store tributyl citrate (TBC)?
- 300 °C (lit.) 1.043 g/mL at 20 °C (lit.) storage temp. Store below +30°C. Miscible with acetone, ethanol, and vegetable oil; practically insoluble in water. Tributyl citrate (TBC) is a good environmental plasticizers, lubricants. At room temperature, it is non-toxic, it has fruit flavor, it is colorless oily liquid.
- How to store tributyl citrate?
- Store below +30°C. Miscible with acetone, ethanol, and vegetable oil; practically insoluble in water. Tributyl citrate (TBC) is a good environmental plasticizers, lubricants. At room temperature, it is non-toxic, it has fruit flavor, it is colorless oily liquid. Boiling point is 170℃ (133.3Pa), flash point (open cup) is 185℃.
