The development of bioengineering and tissue engineering in recent years, leads to the evolution of artificial scaffold in many applications. Many different methods of making artificial scaffold are adopted, but none of these process can be utilized for manufacturing a small-diameter artificial scaffold. Especially for the microvascular-like artificial scaffold, almost no study up to this date can satisfy the characteristic of real human microvascular. Microvascular-like small-diameter artificial scaffold which is necessary in research, like the cultivation of artificial organs in vitro and clinical of the peripheral circulatory system, becomes an urgent topic in the field of tissue engineering. This study proposed to establish a process of manufacturing small-diameter artificial scaffold by electrospinning, using polylactic acid (PLA) and polyethylene oxide (PEO) as materials. The small-diameter artificial scaffold has inner diameter of 0.18-0.20mm and wall thickness 30-40μm. Characteristics of the small-diameter artificial scaffold’s fiber diameter, pore size and contact angle were measured. Culturing endothelial cells on these scaffolds were also conducted. The result showed that cells had better attachment and grew situation when scaffold have the same total pore area with small average pore area.