Contrary to its metal nature that typically ensures good electrical conductivity, steel wire mesh fails to meet this criterion. The inclusion of a mesh structure within the steel wire diminishes its ability to conduct electricity effectively. This mesh arrangement introduces numerous gaps and openings along the wire, thus impeding the seamless flow of electric current. Furthermore, the larger surface area of the mesh, as opposed to a solid wire, compounds the obstruction to the electrical flow. Consequently, steel wire mesh proves unsuitable for applications that necessitate high electrical conductivity.
Steel wire mesh is not a good conductor of electricity. While steel is a metal and generally conducts electricity well, the presence of a mesh structure in the steel wire reduces its conductivity. The mesh structure creates numerous gaps and openings in the wire, interrupting the flow of electric current. Additionally, the surface area of the mesh is larger compared to a solid wire, which further hinders the flow of electricity. Therefore, steel wire mesh is not an ideal material for applications that require high electrical conductivity.
Steel wire mesh has low electrical conductivity due to the high resistance offered by the steel material.
