Table 1.
Mechanical properties of bismaleimide and other polymer composite with different fillers.
| Polymers | Fillers | Optimal Loading | Remarks | Reference |
|---|---|---|---|---|
| BMI | NH2-rGO/WS2 | 0.6 wt % | The flexural and impact strength of the composites increased by 62.6% and 91.3%, respectively, compared to the neat BMI | This paper |
| BMI | GO | 0.15 wt % | The flexural and impact strength of the composites increased by 19.82% and 32.48%, respectively, compared to the neat BMI | [4] |
| BMI | MAH-GO | 0.1 wt % | The flexural and impact strength of the composites increased by 37.48% and 77.28%, respectively, compared to the neat BMI | [4] |
| BMI | MPTS-GO | - | The tensile and impact strength of the composites increased by 22.17% and 66.64%, respectively, compared to the neat BMI | [8] |
| BMI | GNS-Fe3O4@PZM | 0.4 wt % | The flexural and impact strength of the composites increased by 31.3% and 61.3%, respectively, compared to the neat BMI | [16] |
| BMI | P-POSS-GO | 0.8 wt % | The flexural and impact strength of the composites increased by 24.6% and 100.8%, respectively, compared to the neat BMI | [17] |
| CE/BMI | FGONs | 1.0 wt % | The flexural and impact strengths reached optimum values of 110 MPa and 10.98 kJ m−2 | [15] |
| Epoxy | WS2-PEI | 0.25 wt % | The fracture toughness increased by 82.98% and flexural strength increased by 65%, compared to the neat EP | [32] |
| Epoxy | IF-WS2 | 0.5 wt % | The composite exhibited high shear and peel strength | [33] |
| Nylon 12 | IF-WS2 | 2 wt % | The tensile strength and bending strength of the composites increased by 27% and 28%, respectively | [34] |
BMI, bismaleimide; MAH-GO, maleic anhydride-functionalized GO; MPTS-GO, γ-methacryloxypropyltrimethoxysilane-functionalized GO; GNS-Fe3O4@PZM, reduced graphene oxide-Fe3O4@polyphosphazene; P-POSS-GO, phosphorus-containing polyhedral oligomeric silsesquioxane-functionalized Graphene oxide; CE, cyanate ester; FGONs,γ-(2,3-epoxypropoxy)propyltrimethoxysilane-functionalized graphene oxide nanoflakes; WS2-PEI, branched polyethyleneimine-functionalized WS2; IF-WS2, fullerene-like WS2.