Sentence examples for maximum reflection loss from inspiring English sources

Increasing the CNT content to 0.5 and 0.75 wt% led to slight decreases of maximum reflection loss values, which was due to the increased reflectivity of the composites caused by CNT clustering.

The maximum reflection loss reaches −46.8 dB with a thickness of 1.6 mm at 11.6 GHz.

When the matching thicknesses vary from 2 to 4 mm, all the maximum reflection loss values are less than −24.2 dB.

When the sample filling ratio is as low as 25 wt% in paraffin matrix, the maximum reflection loss can achieve −60.0 dB at 8.48 GHz.

When the absorber thickness of nanocomposites is only 1.3 mm, the maximum reflection loss (RL) value can reach −24.3 dB at 17.7 GHz.

Therefore, the as-prepared RGO/CoFe2O4 nanocomposites exhibit excellent EM wave absorption properties in terms of both the maximum reflection loss and the absorption bandwidth.

It is found that the composites consisting of 25 wt% Ti3C2Tx/PPy hybrids in a paraffin matrix exhibit a minimum reflection loss of −49.2 dB (∼99.99% absorption) at the thickness of 3.2 mm and a maximum effective absorption bandwidth of 4.9 GHz (12.4 17.3 GHz) corresponding to an absorber thickness of 2.0 mm.

With an equal CNT filler content, the composite of Nanocyl NC7000 showed the highest microwave absorption, exhibiting a reflection loss peak with the maximum value of 26.1 dB at 11.2 GHz.

Only at a high CNT content of 2 wt%, the Baytubes C150P could achieve reflection loss above 10 dB, with the maximum peaks of 15.0 dB at 8.7 GHz and 10.5 dB at 10.1 GHz.

As shown in Fig. 12, R-GO/SF/PANI-2 nanocomposite has the best microwave-absorbing properties and the maximum RL value is −45.00 dB at 16.08 GHz, the reflection loss of R-GO/SF/PANI-2 nanocomposite below −10 dB at 12.52 18.00 GHz with the bandwidth of 5.48 GHz.

Fan et al. [35] applied twin-screw extrusion and sand-milling to prepare CNT/PET and CNT/varnish composites with 4 and 8 wt% of CNTs and thicknesses of 2 and 1 mm, showing reflection loss peaks at 7.6 and 15.3 GHz with maximum values of 17.61 dB and 24.27 dB, respectively.