ACP32
Material description
Material ID: ACP32
Material type: Aluminium composite panel with a core consisting of polyethylene (PE) and a fire retardant.
Polymer: Polyethylene (38%)
Additives (fire retardants, fillers or traces of inorganic elements): Alumina Trihydrate (62%), traces of other elements (<1%)
| Compound | Mass Concentration (%) |
|---|---|
| Polyethylene (PE) | 38 |
| Alumina Trihydrate (Al(OH)3) | 62 |
| Traces of magnesium (Mg) | <1 |
| Traces of sodium (Na) | <1 |
| Traces of silion (Si) | <1 |
A. Material composition identification
A.1 Attenuated total reflection – Fourier transform infrared spectroscopy (ATR-FTIR)
Table 2. FTIR compound identification.| Identified Compounds |
|---|
| Polyethylene (PE) |
| Alumina Trihydrate (Al(OH)3) |
Figure 1 . FTIR spectra: Absorbance percentage versus wavenumber from the sample.
Figure 2. FTIR spectra: Absorbance percentage versus wavenumber from the sample and the identified compounds.
A.2 Energy Dispersive X-Ray Fluorescence (EDXRF)
Table 2. Inorganic elements and their mass concentration identified with EDXRF.
| Element | Mass Concentration (%) |
|---|---|
| Al | 19 |
| Mg | <1 |
| Na | <1 |
| Si | <1 |
Figure 3. EDXRF spectra. Counts vs energy. Identified elements are shown as vertical lines.
B. Thermogravimetric analysis
Table 3. Mass fraction of residue after thermal decomposition.
| Condition | Fraction of mass residue at 800°C |
|---|---|
| Non-oxidative (nitrogen) | 0.41 |
| Oxidative (air) | 0.42 |
Table 4. Temperature and amplitude of main peaks in non-oxidative conditions.
| Peak ID | Temperature peak (°C) | Amplitude of peak (°C-1) |
|---|---|---|
| Peak 1 | 242 | 1.39 x 10-3 |
| Peak 2 | 311 | 3.32 x 10-3 |
| Peak 3 | 486 | 1.156 x 10-2 |
Table 5. Temperature and amplitude of main peaks in oxidative conditions.
| Peak ID | Temperature peak (°C) | Amplitude of peak (°C-1) |
|---|---|---|
| Peak 1 | 240 | 1.6 x 10-3 |
| Peak 2 | 314 | 4.5 x 10-3 |
| Peak 3 | 470 | 3.26 x 10-3 |
| Peak 4 | 499 | 2.2 x 10-3 |
Figure 4. Normalised mass (solid line) and derivative of the normalised mass (dashed line) in 150 ml min-1 of nitrogen and a heating rate of 20°C min-1.
Figure 5. Normalised mass (solid line) and derivative of the normalised mass (dashed line) in 150 ml min-1 of air and a heating rate of 20°C min-1 .