In this study, we mix polylactic acid (PLA) and polycaprolactone (PCL) solutions with different ratio for the purpose of electrospinning. The fiber were then collected under different speed for manufacturing small diameter artificial vascular scaffolds (inner diameter of 4.1mm, outer diameter of 5mm, wall thickness of 0.45mm). Vascular scaffolds fabricated this way showed different fiber orientations. Then we observed the surface structure and measured the contact angle (hydrophilic), the porosity and mechanical properties of the scaffolds. The vascular scaffolds were used for culturing endothelial cells under static and rotational state to find out the growth and activity of the cells. Finally in order to simulate the environment of the human body's blood flow, the cells were cultured under the flow velocity of the venous and arterial, and observe cell growth situations. The experimental results showed the cell numbers in static and dynamic state with random orientations of fibers are higher than ones with aligned fibers. This phenomenon might arise from the fact that scaffolds with random fiber orientation have higher porosity. However, the cells do grow along the fibers direction in the artificial vascular scaffolds with aligned fibers. The artificial blood vessel scaffolds with the different solutions mixture and collection speed have different mechanical properties. We can select the ratio of the solution and the collection speed as needed.