Circular Economy
 3. Results and conclusions
The following figure and table show a list of the results obtained more characteristic of all of the materials tested. Figure 2 shows mechanical properties and Table 1 shows durability properties.
Table 1: Durability properties Control SW-NP SW-C SW-B
      5.
This work is part of the results obtained in the "Escorinox2 project", which received financial support from Acerinox Europa S.A.U.
References
1726. 201.
Water 2.8 penetration
(cm)
Chloride 6055
penetration (C)
Figure 2: Mechanical properties
8.35 4.4 3.5 2242 2021 4146
Figure 2 shows that the loss of compressive strength respect to the control concrete was reduced. The compressive strength values improved when the SW were subjected to crushing and burned processes. On the contrary, the values of tensile splitting strength were higher in the SCC manufactured with processed SW compared to the Control.
Respecting the durability of concrete manufactured with SW, the results showed an improved performance compared to conventional SCC. The water absorption results were increased with the use of SW, mainly due to the absorption that characterizes this material. However, lower results were obtained regarding the penetration of chloride ion. The use of SW as a replacement of limy filler improves certain durability parameters obtained for SCC manufactured.
4. Acknowledgments
 Huaiwei, Z., & Xin, H. (2011). An overview for the utilization of wastes from stainless steel industries. Resources,
 Conservation and Recycling, 55(8), 745-754.
 Shen, H., Forssberg, E., & Nordström, U. (2004). Physicochemical and mineralogical properties of stainless steel slags
 oriented to metal recovery. Resources, Conservation and Recycling, 40(3), 245-271.
 Rosales, J., Cabrera, M., & Agrela, F. (2017). Effect of stainless steel slag waste as a replacement for cement in mortars.
 Mechanical and statistical study. Construction and Building Materials, 142, 444-458.
 Felekoğlu, B., Tosun, K., Baradan, B., Altun, A., & Uyulgan, B. (2006). The effect of fly ash and limestone fillers on the
 viscosity and compressive strength of self-compacting repair mortars. Cement and concrete research, 36(9), 1719-
 Otsuki, N., Nagataki, S., & Nakashita, K. (1993). Evaluation of the AgNO3 solution spray method for measurement of
 chloride penetration into hardened cementitious matrix materials. Construction and building materials, 7(4), 195-
80