Add to ORKGA series of pullout tests were carried out to characterize the interface bond between steel fibre and magnesium phosphate cement (MPC) based matrix. The effect of the mixture proportions, curing time and end-hook of fibre on the interface bond properties between the steel fibre and the MPC-based matrix was investigated. The mixture proportions investigated include the mole ratio of magnesium oxide to potassium dihydrogen phosphate, mass ratio of sand to cement, mass ratio of water to cement and dosage of silica fume. The effect of different types of cement on the interface bond properties was also investigated
The performance of fibre reinforced cementitious composites depends on the interaction between the c...
Magnesium phosphate cement (MPC) is one of the most promising binders to partially replace Portland ...
This paper compares the adhesion strength between three polymeric fibres (polypropylene (PP), nylon...
A series of pullout tests were conducted to investigate the interface bond properties of seven types...
The fibre pullout test was conducted to investigate the influence of the water stability on the bond...
Magnesium phosphate cement (MPC) has been proven to be a very good repair material for deteriorated ...
The use of high performance composite fibers allows for the improvement of the mechanical properties...
The bonding force of hardened magnesium phosphate cement (MPC) based materials comes from the ionic ...
A comprehensive experimental program on pullout tests of steel fibers from cement based matrices is ...
The results of an experimental investigation on the influence of the interfacial bond of reinforcing...
This paper presents the mechanical properties of micro-steel fibre (MSF) reinforced magnesium potass...
Following the development of an improved theoretical analysis of fibre pull-out on the basis of the ...
In this study adhesion of some polymeric fibres to a cement matrix was evaluated both by a theoretic...
As fibre-reinforced cementitious composites (FRCC) are multi-scale materials, their structural perfo...
To enhance the interfacial bonding performance between magnesium potassium phosphate cement (MKPC) r...
The performance of fibre reinforced cementitious composites depends on the interaction between the c...
Magnesium phosphate cement (MPC) is one of the most promising binders to partially replace Portland ...
This paper compares the adhesion strength between three polymeric fibres (polypropylene (PP), nylon...
A series of pullout tests were conducted to investigate the interface bond properties of seven types...
The fibre pullout test was conducted to investigate the influence of the water stability on the bond...
Magnesium phosphate cement (MPC) has been proven to be a very good repair material for deteriorated ...
The use of high performance composite fibers allows for the improvement of the mechanical properties...
The bonding force of hardened magnesium phosphate cement (MPC) based materials comes from the ionic ...
A comprehensive experimental program on pullout tests of steel fibers from cement based matrices is ...
The results of an experimental investigation on the influence of the interfacial bond of reinforcing...
This paper presents the mechanical properties of micro-steel fibre (MSF) reinforced magnesium potass...
Following the development of an improved theoretical analysis of fibre pull-out on the basis of the ...
In this study adhesion of some polymeric fibres to a cement matrix was evaluated both by a theoretic...
As fibre-reinforced cementitious composites (FRCC) are multi-scale materials, their structural perfo...
To enhance the interfacial bonding performance between magnesium potassium phosphate cement (MKPC) r...
The performance of fibre reinforced cementitious composites depends on the interaction between the c...
Magnesium phosphate cement (MPC) is one of the most promising binders to partially replace Portland ...
This paper compares the adhesion strength between three polymeric fibres (polypropylene (PP), nylon...