Self-repairing performance of concrete beams strengthened using superelastic SMA wires in combination with adhesives released from hollow fibers

By taking advantage of the superelastic effect of shape memory alloy (SMA) and the cohering characteristic of repairing adhesive, a smart self-repairing concrete beam with damage self-repairing performance has been developed. In order to verify the potential self-repairing capacity of smart concrete beams reinforced with SMA wires and brittle fibers containing adhesives, static loading tests were conducted. Experimental results show that the superelastic SMA wires added self-restoration capacity to concrete beams, the deflection of the beams reversed and the crack closed almost completely after unloading. After the release of adhesive from the broken-open fibers into the cracks from the first loading, stress was redistributed to the uncracked section where a new crack was formed, while the sealed crack remained closed during reloading for the smart concrete beams reinforced with SMA wires and brittle fibers containing adhesives. While the original cracks experienced reopening, the load was carried directly by the wires during reloading for concrete beams reinforced with SMA wires.

[1]  Arup K. Maji,et al.  Smart Prestressing with Shape-Memory Alloy , 1998 .

[2]  Hui Li,et al.  Study on Damage Emergency Repair Performance of a Simple Beam Embedded with Shape Memory Alloys , 2004 .

[3]  Masanori Iiba,et al.  Experimental study on enhancement of self-restoration of concrete beams using SMA wire , 2003, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[4]  Kazuo Tamura,et al.  Active/passive vibration control systems for tall buildings , 1998 .

[5]  Carolyn M. Dry,et al.  Matrix cracking repair and filling using active and passive modes for smart timed release of chemicals from fibers into cement matrices , 1994 .

[6]  Krzysztof Wilde,et al.  Base isolation system with shape memory alloy device for elevated highway bridges , 2000 .

[7]  Carolyn M. Dry,et al.  Smart earthquake-resistant materials: using time-released adhesives for damping, stiffening, and deflection control , 1996, Other Conferences.

[8]  Reginald DesRoches,et al.  Seismic retrofit of simply supported bridges using shape memory alloys , 2002 .

[9]  Xiaodong Wu,et al.  A study on thermomechanical deformation of elastic beam with embedded shape memory alloy wires , 2000 .

[10]  Jung Ju Lee,et al.  The shape control of a composite beam with embedded shape memory alloy wire actuators , 1998 .

[11]  Carolyn M. Dry,et al.  Three designs for the internal release of sealants, adhesives, and waterproofing chemicals into concrete to reduce permeability , 2000 .

[12]  Yun Mook Lim,et al.  Feasibility study of a passive smart self-healing cementitious composite , 1998 .