Although numerous studies have been carried out on concrete with a very high performance, which is armed with steel fibers, few researchers have investigated the effect of synthetic and mineral fibers on the mechanical properties of concrete with very high performance. Most researchers also used microsilica as a second component of cement material. In this research, five types of synthetic and inorganic fibers (Barchipel fibers, polypropylene fibers, nylon fibers, ceramic fibers and polyester fibers) and six different levels of hybrid fibers were investigated to investigate the effect of these fiber surfaces on the mechanical properties of concrete with very high performance used. Also, the effect of replacing zeolite pozzolan with micro silica, and the use of synthetic micro-silica and limestone powder on the mechanical properties of concrete with a very high performance, were arranged on the fibers. To achieve the desired compressive strength, four different treatments (wet treatments, autoclave treatments, heat treatments and combined treatment) were used. Two concrete and four-point bending tests were used to check the mechanical properties of this concrete. Using different processing methods, microstructures containing micro-silica at all different levels of the fiber used to withstand a compressive strength of more than 150 MPa, while samples containing pozzolan zeolite have a compressive strength of more than 120 Mega Pascale. All levels of the fibers used have increased the flexural and ductility properties of the non-fibrous state, but in terms of the shape of the macro fibers and hybrid fibers, they yield better results than microfiber fibers. All levels of the fiber used increased the indexes of durability and breakdown energy in all treatments. Moisture treatment results in better ductility and bending strength than other treatments. The use of limestone powder as a substitute for cement resulted in a slight reduction in compressive strength, flexural strength and ductility of fiber-reinforced specimens, while the use of zeolite significantly reduced the compressive strength, It affects the flexural strength and ductility.