This study has been suggested a model for the in-plane shear behavior of High-Performance Cement-free Fiber Composite Panels under biaxial stress states. The analytical model is verified by comparison of the analytical results with the experimental results for biaxial shaer test of Cement-free Fiber Composite Panels.

This paper showed evaluations of mechanical performances of High-Performance Fiber Composite Mortar which made by cement free binders with Alkali-activated slag and PVA fibers with the volume fraction of 1~1.5%. Specimens were subjected to compressive, tensile and shear strength test and the test results showed their high performance mechanical characteristics.

This paper showed evaluations of mechanical performances of High-Performance Fiber Composite Mortar which made by cement free binders with Alkali-activated slag and PVA fibers with the volume fraction of 1~1.5%. Specimens were subjected to compressive, tensile and shear strength test and the test results showed their high performance mechanical characteristics.