| Literature DB >> 30791517 |
Jong-Young Lee1, Kwang-Jea Kim2.
Abstract
Entities:
Keywords: glass fiber; hydrolysis; mechanical property; monoethylene glycol(MEG); polyamide66(PA66); pyrolysis-gas chromatography/mass spectrometry (py-GC/MS)
Mesh:
Substances:
Year: 2019 PMID: 30791517 PMCID: PMC6412885 DOI: 10.3390/molecules24040755
Source DB: PubMed Journal: Molecules ISSN: 1420-3049 Impact factor: 4.411
The composition of glass fiber 30% filled PA66.
| D | Z | K | A | |
|---|---|---|---|---|
| PA66 (wt%) | 66.78 (± 0.61) | 68.81 (± 0.41) | 66.24 (± 0.88) | 66.92 (± 0.54) |
| GF (wt%) | 31.52 (± 0.76) | 29.25 (± 0.38) | 30.35 (± 0.18) | 30.78 (± 0.39) |
| Additive (wt%) | 1.71 (± 0.15) | 1.95 (± 0.03) | 3.41 (± 0.7) | 2.30 (± 0.15) |
Mechanical properties of various glass fiber-filled polyamide66 composites, before and after immersion in monoethylene glycol (MEG) (1008 h) at 130 °C.
| Tensile Strength (MPa) [5 mm/min] | Tensile Modulus (MPa) [5 mm/min] | Tensile Elongation (%) [5 mm/min] | Impact Strength (kJ/m2) [unnotched] | ||
|---|---|---|---|---|---|
| D | Before | 178 | 9551 | 3.1 | 66.04 |
| After | 100 | 5099 | 4.3 | 69.42 | |
| % change rate | −44 | −47 | +40 | +5 | |
| Z | Before | 185 | 9494 | 3.5 | 76.62 |
| After | 102 | 4646 | 4.4 | 73.97 | |
| % change rate | −45 | −51 | +28 | −3 | |
| K | Before | 171 | 9078 | 2.9 | 61.09 |
| After | 94 | 5022 | 3.5 | 67.76 | |
| % change rate | −45 | −45 | +23 | +11 | |
| A | Before | 167 | 9039 | 3.3 | 77.2 |
| After | 96 | 4561 | 5.4 | 88.43 | |
| % change rate | −43 | −50 | +63 | +15 | |
Figure 1Tensile strength changes of various glass fiber-filled polyamide66 composites with respect to monoethylene glycol (MEG) immersion time increase at 130 °C.
Figure 2Hydrolysis of polyamide (adopted from Reference [37]).
Figure 3PA66 degradation mechanism and its byproducts (adopted from Reference [56]).
The decomposition products of PA66 composites.
| Region | Retention Time (min) | Product | Chemical Structure |
|---|---|---|---|
| ① | 5.5 | Cyclopentanone |
|
| ② | 8.6 | 2-N-Hexylaziridine |
|
| ③ | 9.5 | 1-Decanol |
|
| ④ | 11.6 | 1,6-Hexanediamine |
|
| ⑤ | 13.4 | 3-None-1-ol |
|
| 13.5 | Adiponitrile |
| |
| ⑥ | 17.8 | 1-Methyl-3-formlindole |
|
| ⑦ | 21.5 | 2-Azacyclotridecanone |
|
| ⑧ | 30.7 | Hexadecanenitrile |
|
Figure 4Pyrolysis-gas chromatography/mass spectrometry (py-GCMS) pyrograms of composites (a) D, (b) Z, (c) K, and (d) A with respect to immersion time.
Figure 5Pyrolysis-gas chromatography/mass spectrometry-selected ion monitoring (py-GC/MS-SIM) peak area corresponding to 1,6-hexanediamine in PA66/GF composites with respect to immersion time.