Front Matter

 

250 Introduction to Renewable Biomaterials

(a) (b)

(c) (d)

Figure 8.6SEM analysis of (a) PBAT/TPS (b) PBAT-g-MA/TPS (c) PBAT/TPS/C30B (d)

PBAT-g-MA/TPS/C30B. Nayak 2010 [30]. Reproduced with permission of Taylor and Francis.

Table 8.9Mechanical and thermal properties of neat PBAT and PBAT/TPS

blend modified with maleic anhydride and nanoclay C30B addition.

Samples (numbers

represent ratios)

Tensile

strength

(MPa)

Elongation

at break (%)

Degradation

temperature

(∘C)

PBAT 11.8±6.0 324.8±10.1 412

PBAT 70/TPS 30 10.2±2.3 392.4±10.8 410

PBAT 70/TPS 30/C30B 3 11.2±4.5 564.0±12.1 417

PBAT-g-MA 70/TPS 30 10.5±3.3 413.1±11.3 418

PBAT-g-MA 70/TPS 30/C30B 3 11.8±2.8 613.4±11.6 423

Nayak 2010 [30]. Reproduced with permission of Taylor and Francis.

Leroyet al. [31] used 1-butyl-3-methylimidazoliumchloride ([BMIM]Cl) as plasticizer

for starch–zein (main protein in corn) blend, comparing their results to glycerol

plasticizer. The presence of [BMIM]Cl allowed to obtain a lower water uptake and

better thermodynamical behaviour than samples with glycerol, resulting in an improved

blend compatibility.