Front Matter

 

Oil-Based and Bio-Derived Thermoplastic Polymer Blends and Composites 243

Trt PLAPLA-TEC5PLA-TEC10PLA-TEC15PLA-TEC20PLA-TEC30

Formulations

Trt PLAPLA-ATBC5PLA-ATBC10PLA-ATBC15PLA-ATBC20PLA-ATBC30

Formulations

DSC

DMA

DSC

DMA

10

20

Tg

( ̊

C)

Tg

( ̊

C)

30

40

50

60

70

(a) (b)

10

20

30

40

50

60

70

Figure 8.1Influence of TEC (a) and ATBC (b) on glass transition temperature of PLA ref. [5].

Chenet al. [6] studied the effect of four different ionic liquids:

1-methyl-3-pentylimidazolium tetrafluoroborate ([MPI][BF 4 ]),

1-methyl-3-pentylimidazolium hexafluorophosphate ([MPI][PF 6 ]),

1-methyl-3-pentylimidazolium bis(trifluoromethanesulfonyl)imide ([MPI][TFSI]),

1,2-dimethyl-3-pentyl imidazolium bis(trifluoromethanesulfonyl)imide ([DMPI][TFSI]).

Their main results are reported in Tables 8.4 and 8.5 and Figure 8.2.

Table 8.4The effect of four different ionic liquids on PLA mechanical properties.

Sample

Tensile

strength (MPa)

Elongation

at break (%)

Young

modulus (GPa)

PLA 49.2±2.6 2.5±0.5 3.29±0.16

PLA+10% [MPI][BF 4 ] 24.1±1.1 26.9±1.0 2.13±0.23

PLA+20% [MPI][BF 4 ] 16.4±1.6 32.8±3.8 1.96±0.03

PLA+10% [MPI][BF 4 ] 26.8±1.5 29.7±1.6 2.54±0.16

PLA+20% [MPI][BF 4 ] 20.6±1.3 61.6±5.8 1.84±0.03

PLA+10% [MPI][TFSI] 30.9±1.7 15.9±1.8 1.92±0.28

PLA+20% [MPI][TFSI] 26.0±1.3 28.9±2.2 1.48±0.06

PLA+10% [DMPI][TFSI] 27.4±1.4 16.1±2.9 2.27±0.04

PLA+20% [DMPI][TFSI] 13.7±1.6 34.1±3.8 1.25±0.08

Chenet al. 2013 [6]. Reproduced with permission of Elsevier.