Modification of poly(lactic acid) filament with expandable graphite for additive manufacturing using fused filament fabrication (FFF): effect on thermal and mechanical properties

Melillo, João Miguel Ayres; Pereira, Iaci Miranda; Mottin, Artur Caron; Araujo, Fernando Gabriel da Silva

doi:10.1590/0104-1428.20210013

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ORIGINAL ARTICLE • Polímeros 31 (2) • 2021 • https://doi.org/10.1590/0104-1428.20210013 copy

Modification of poly(lactic acid) filament with expandable graphite for additive manufacturing using fused filament fabrication (FFF): effect on thermal and mechanical properties

Authorship SCIMAGO INSTITUTIONS RANKINGS

Abstract

Fused Filament Fabrication, better known as Fused Deposition Modeling®, is currently the most widespread 3D Printing Technology. There has been a significant demand for developing flame-retardant filaments. Thereby enabling them, for example, in electronics and automotive applications. In this study, commercial PLA filament was modified by the addition of 1, 3 and 5% (%wt.) of expandable graphite. The composites were reprocessed, via extrusion, into filaments for Fused Filament Fabrication. Thermal properties of the filament composites were evaluated by thermogravimetric analysis and differential scanning calorimetry. Mechanical properties of thermo-pressed specimens indicated that no strong adhesion was promoted between the filler and matrix. This is a challenge with expandable graphite reported by many authors. All composites with expandable graphite achieved the V-2 rating of UL-94 flammability test. In spite of this, the results indicated that flammability of the PLA was reduced. All composite filaments were printable and prototypes were successfully 3D printed.

Keywords:
Fused Filament Fabrication (FFF); PLA; expandable graphite; prototypes

Criteria conditions	V0	V1	V2
Afterflame time for each individual specimen t1 or t2	≤10 s	≤30 s	≤30 s
Total afterflame time for any condition set (t1 plus t2 for the 5 specimens)	≤50 s	≤250 s	≤250 s
Afterflame plus afterglow time for each individual specimen after the second flame application (t2+t3)	≤30 s	≤60 s	≤60 s
Afterflame or afterglow of any specimen up to the holding clamp	No	No	No
Cotton indicator ignited by flaming particles or drops	No	No	Yes

Filament	T_{1max deg} (°C)	T_{2max deg} (°C)	T_{3max deg} (°C)	Residue
PLA-EG0%	363		502
PLA-EG1%	341	365	502
PLA-EG3%	343	369	492
PLA-EG5%	335	360	489	1.15

Filament	$T_{g}^{P L A}$ (°C)	$T_{c c}^{P L A}$ (°C)	ΔH_cc (J/g)	$T_{m 1}^{P L A}$ (°C)	$T_{m 2}^{P L A}$ (°C)	ΔH_m (J/g)	χ_c (%)
PLA-EG0%	59.0	102.3	-13.26	144.8	151.9	15.71	2.6
PLA-EG1%	60.3	112.0	-11.56	146.8	151.8	18.68	7.7
PLA-EG3%	60.5	111.1	-12.34	147.1	152.0	20.09	8.6
PLA-EG5%		94.0	-17.52	137.0	148.3	25.02	8.5

Specimen	σ (MPa)	ε (%)	E (MPa)
PLA-EG0%	34.03 ± 1.01	20.94 ± 1.29	727 ± 15.5
PLA-EG1%	29.72 ± 3.94	20.71 ± 1.20	731 ± 16.4
PLA-EG3%	23.73 ± 0.12	18.59 ± 0.08	733 ± 4.50
PLA-EG5%	4.70 ± 1.62	16.38 ± 0.86	830 ± 38.0

Sample	T₁	T₂	T₁+T₂	T₂+T₃	Flaming particles	Classification
PLA-EG0%	<10	***	<250	***	Yes	None
PLA-EG1%	<30	<30	<50	<60	Yes	V-2
PLA-EG3%	<30	<30	<250	<60	Yes	V-2
PLA-EG5%	<10	<10	<50	<30	Yes	V-2

Sample	L*	a*	b*	∆E*	A
PLA-EG0%	81.34±2.03	-2.15±0.09	4.66±0.32		0.3±0.01
PLA-EG1%	43.13±1.23	-0.72±0.07	-2.24±0.23	38.85±1.23	0.84±0.02
PLA-EG3%	31.88±1.07	-0.29±0.04	-1.77±0.25	49.90±1.04	1.11±0.03
PLA-EG5%	27.69±0.51	-0.14±0.05	-1.58±0.22	54.04±0.52	1.23±0.01

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