This article probes into the engineering characteristics of sewer sludge artificial aggregate used as recycling concrete aggregate material. Dehydrated, dried, sintered and agglomerated sewer sludge at 800℃ into ash pieces, and then grinded to powder through 100 meshes screen, mixed with pozzolan material and water are translated into ball aggregate of different sizes through extrusion, injection molding, rubbing and granulation, then cured 28days used as coarse and fine aggregate of concrete. Then concrete is made to discuss the relations among time of maintenance, compression strength, elasticity modulus, carbonization amount, and thermal conductivity ratio. A series of tests are made to obtain the regression curves as references for engineering and construction. The research results show that, the aggregate made from sludge ash at a mix ratio of C6-S51-SSA43 has ingredients and strength similar to those of ordinary aggregates, and would not impact or pollute the natural environment including soil and ground water. As to concrete made from sludge aggregate, its elasticity modulus, dynamic elasticity modulus, dynamic shear stress modulus, compression stress velocity and shear stress velocity all increase with the growth of the square root of compression strength. In respect of sludge aggregate concrete, mix ratio SSA032 has the maximum strength, while SSA056 the minimum. In respect of sludge aggregate concrete, the elasticity modulus after regression E= 13375√f(subscript c). Obviously, sludge aggregate concrete is better, because its elasticity modulus is closer to that of ACI Code 318, E=15000√f(subscript c). In respect of sludge aggregate, SSA040, SSA052 have greater carbonization amount, lower than f(subscript cr)=280 kgf/cm^2, showing that the carbonization amounts of sludge aggregate concrete is less than that of ordinary aggregate concrete. The thermal conductivity coefficient is between 0.54 and 0.68, only a half of that this kind of green building material is good material for thermal insulation.