Reinforcement Pu Wei highway bridge with carbon fiber fabric
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Reinforcement Pu Wei highway bridge with carbon fiber fabric
The main technology is to use epoxy mortar to repair the exposed reinforcement and concrete defects in the beam body. The advanced carbon fiber reinforcement technology is applied to reinforce the above highway bridges so as to improve the bearing capacity and durability of the bridge structure.
Project overview
The former canal and provincial highway have been undertaking heavier transportation tasks. In recent years, the traffic volume is increasing. Higher requirements for the safe operation of the provincial roads are put forward. After years of operation, in the bridge inspection process, found that the Pu Wei highway bridge (part of Pu Wei Longquan port, port, port battle Maqiao bridge) portion of the slab beam fine crack obviously, considering the safety of the bridge structure,district highway department to arrange the cracks of plate beam by carbon fiber reinforcement reinforcement plan. The main technology is to use epoxy mortar to repair the exposed reinforcement and concrete defects in the beam body. The advanced carbon fiber reinforcement technology is applied to reinforce the above highway bridges so as to improve the bearing capacity and durability of the bridge structure.
(highway bridge with carbon fiber reinforced polymer CFRP fabric)
Engineering scope
The maintenance and reinforcement project of Longquan port, the main battle of Hong Kong, Hong Kong, bridge 3 bridge maintenance construction, advanced line qiaokong scaffording, then the existence of cracks in the beam reinforced with carbon fiber, so as to improve the bearing capacity and durability of bridge structure.
Construction period
The total schedule of the plan is about 28 days.
Plan start date: the scheduled completion date of 10 06 month 2011: 07 month, 7, 2011
Main workload of unit engineering
Externally bonded carbon fiber reinfroced polymer(cfrp) at the bottom of the beam, combined with 162.00m2
Structural strengthening materials
HM-30 unidirectional carbon fiber fabric
HM-180C3P carbon fiber adhesive
Carbon Fiber fabric and carbon fiber adhesive's datasheet
Dry Fiber Typical Properties
Standrad Value of Tensile Strength
4900MPa(7.1×105psi)
Tensile Elastic Modulus
234500MPa(34×105psi)
Elongation
1.7%
Laminate Fiber Typical Properties
Standrad Value of Tensile Strength
3800MPa(5.51×105psi)
Tensile Elastic Modulus
234500MPa(34×105psi)
Elongation
1.7%
With Concrete
Concrete Damaged: ≥2.5MPa
Densiy
1.8g/cc(0.065lbs.in3)
HM-30
0.167mm(0.0065in.)
The properties after carbon fiber adhesive
Colloidal performance
Compressive strength(MPa)
≥70.0
Working
performance
Nonvertical mobility(mm), 30℃
2.0
Tensile strength(MPa)
≥40.0
Operable time(min), 30℃
>40
Bending Strength(MPa)
≥50.0
Applicable Temperature(℃)
5~40
Elastic strength(MPa)
≥2500
Bonding capacity
Steel-steel tensile shear strength(MPa)
≥14
Mixing ratio
A:B=2:1
Pulling bonding strength along
with concrete(MPa)
≥2.5
Curing time(d),25℃
3~7
Steel-concrete tensile
C60 concrete damage
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High strength, unidirectional carbon fiber wrap pre-saturated to form a carbon fiber reinforced polymer (CFRP) wrap used to strengthen structural concrete elements.
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