Electrophotographic roller and charging apparatus

The invention claimed is: 1. An electrophotographic roller comprising: an electro-conductive shaft core that includes a metallic layer at a surface thereof; and an elastic layer on the shaft core, wherein, when kinetic friction coefficients of an outer peripheral surface of each end portion of the shaft core with respect to polyester resin are measured for one rotation of the shaft core, an average value μr of the kinetic friction coefficients is in a range of 0.05 to 0.50, and when the outer peripheral surface of each end portion is divided into three equal ranges, which are defined as a region A1, a region A2, and a region A3, in a peripheral direction of the shaft core, each of the regions has: a location where the kinetic friction coefficients fall within a range of 1.5 μr to 1.8 μr, and a location where the kinetic friction coefficients fall within a range of 0.2 μr to 0.5 μr. 2. The electrophotographic roller according to claim 1 , wherein the shaft core has a hollow structure. 3. The electrophotographic roller according to claim 1 , wherein the shaft core is formed into a cylindrical shape by pressing a metallic plate. 4. A charging apparatus comprising: an electrophotographic roller that charges an electrophotographic photoconductor; and a bearing that supports the electrophotographic roller, wherein, the electrophotographic roller includes: an electro-conductive shaft core that includes a metallic layer at a surface thereof, and an elastic layer on the shaft core, the bearing slidably supports an outer peripheral surface of each end portion of the shaft core of the electrophotographic roller, and when kinetic friction coefficients between the outer peripheral surface of each end portion of the shaft core and the bearing are measured for one rotation of the shaft core, an average value μr of the kinetic friction coefficients is in a range of 0.05 to 0.50, and when the outer peripheral surface of each end portion of the shaft core is divided into three equal ranges, which are defined as a region A1, a region A2, and a region A3, in a peripheral direction of the shaft core, each of the regions has: a location where the kinetic friction coefficients fall within a range of 1.5 μr to 1.8 μr, and a location where the kinetic friction coefficients fall within a range of 0.2 μr to 0.5 μr. 5. The charging apparatus according to claim 4 , wherein a sliding surface of the bearing with respect to the outer peripheral surface of each end portion of the shaft core is made of a material containing polyester resin.