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Fiberglass Rebar.

Keystone

SAWHORSE
Joined
Feb 23, 2010
Messages
1,273
Location
Lehigh Valley, Pennsylvania
I never knew fiberglass rebar existed.

Seems to be cheaper, lighter and stronger. One downside I read was radius bends must be factory made.


 
Also fiberglass has effectively no ductility. You can't use the bars for anything other than shrinkage and temperature reinforcement.
 
@ ~ @

I'm only guessing that it can't be used as a CEE
in the footings.

What say ye other learned Forum members \

guests ?


@ ~ @
 
Also fiberglass has effectively no ductility. You can't use the bars for anything other than shrinkage and temperature reinforcement.

Trying to understand, if it can’t be used for anything other than shrinkage and temperature what is a use, cold storage floors?? Definitely not ice skating floor due to maintaining tension. This would explain never seeing it spec’d & used in projects.
 
Fiberglass rebar has limited uses primarily because of a lack of ductility. ACI 318 does not recognize the use of fiberglass rebar so from a code perspective it cannot be used when code compliance would require rebar.

In some places in Asia when rebar was not available some small bridges and other structures were reinforced with bamboo. The point is that fiberglass rebar like bamboo can provide some limited benefit but from a code perspective they do not exist
 

Keystone,

Also search here under FIBERGLASS REINFORCED POLYMER REBAR, it has been discussed here before.

 
It can typically only be used on non-structural flatwork.

That said, we did have one project where we used it to reinforce a masonry wall adjacent to the magnet for a MRI.
 
Does this mean the MRI's in hospitals that are constructed of concrete or where the MRI is in the basement are not working properly?
 
People I have talked to don't like that the bends have to be factory made, much more expensive. Also, I have been told that it will "float", so you have a hard time keeping it in position.
 
Does this mean the MRI's in hospitals that are constructed of concrete or where the MRI is in the basement are not working properly?
I provided no indication of such. Just that I experienced one specific application where it was specified by an engineer. That said, as indicated by Keystone, a simple google search will indicate to you that this is not just a one-off occurrence. Am I at all familiar with the requirements for an MRI machine; no, and I do not need to be either.
 
@ ~ @

I'm only guessing that it can't be used as a CEE
in the footings.

What say ye other learned Forum members \

guests ?


@ ~ @
You could clamp a 20' piece of #4 (or larger/longer) bare copper electrode to non-metallic reinforcement at the bottom of a footing.
 



ICC-ES Issues First Evaluation Reports For Fiber-Reinforced Polymer Reinforcing Bars
Reports provide confidence to safely use FRP reinforcing bars in reinforced concrete construction
Brea, CA – ICC Evaluation Service (ICC-ES), a member of the International Code Council family of solutions and the experts in building product evaluation and certification, issued the first two evaluation reports for Fiber-reinforced Polymer (FRP) reinforcing bars in accordance with the Acceptance Criteria AC454 (Acceptance Criteria for Fiber-Reinforced Polymer Bars for Internal Reinforcement of Concrete Members). The evaluation reports were issued for Tuf-N-Lite, LLC (ESR-4664) and Neuvokas Corporation (ESR-4526), providing evidence that the FRP reinforcing bars are in compliance with code requirements of the 2021 and 2018 International Building Codes (IBC) and International Residential Codes (IRC).

Acceptance Criteria AC454 applies to glass or basalt fiber-reinforced polymer reinforcing bars, in cut lengths, bent shapes and continuous closed stirrups and ties (hoops), that are used to reinforce concrete structural members. AC454 includes provisions for evaluation of FRP reinforcing bar material properties, performance under accelerated environmental exposures, performance under exposure to fire conditions, and structural design procedures. FRP bars under this criteria are used as flexural reinforcement in structural concrete members such as beams, shallow foundations and one-way or two-way slabs, and as shear reinforcement for flexural members; as well as used as longitudinal reinforcement in columns or walls.

To date, the IBC and IRC (as well as IBC referenced ACI 318) do not include provisions for use of FRP reinforcing bars as replacement of steel reinforcement. Therefore, AC454 was developed by ICC-ES to demonstrate that FRP reinforcing bars have been independently evaluated to show building code compliance in terms of quality, strength, effectiveness, fire resistance, durability and safety. Having an evaluation report from ICC-ES helps code officials, design engineers, and inspectors safely use FRP reinforcing bars in reinforced concrete construction with confidence, as well as manufacturers to safely market their product.

ICC-ES encourages manufacturers to comply with the most current codes to increase market acceptance. For more information about updating your product’s code compliance to the current codes, contact ICC-ES at 800-423-6587 or es@icc-es.org.
 
ICC Evaluation Reports are not code. When producing evaluation reports ICC is dependent on information provided by the firm paying for the report.

FRP rebar is inherently brittle. The ductility of steel rebar plays an essential role in the performance and the safety of reinforced concrete structures. Thus in some concrete structures replacing ductile reinforcing with brittle FRP elements can reduce the safety of the structure.

This ductility is especially critical when earthquake forces are being considered since the design philosophy assumes that the rebar is yielding and absorbing energy.
 
Not a chance I would specify that bar for any elevated members. The ESRs are for Type VB only. Not a lot of elevated concrete in VB.
No ductility is literally a recipe for disaster in concrete structures. No chance this is ever accepted in 318 for that reason.
 
FRP rebar has made some progress in bridge decks because it doesn't corrode like steel.

Interestingly, glass itself breaks down in an alkaline environment like wet concrete has. But the strands are treated for alkali exposure in these applications.

Here is a good article from the Florida DOT on uses they allow & why.

 
It can typically only be used on non-structural flatwork.

That said, we did have one project where we used it to reinforce a masonry wall adjacent to the magnet for a MRI.
Not Quite True:
USE FRP REBAR
Concrete Susceptible to Corrosion
• Waste Water Treatment Facilities
• Swimming Pools
Tunneling & Mining
• Sequential Excavation or NATM Tunneling
• Deep Foundation Tunnel Boring Machine “Soft-Eye” Opening for Launch & Reception
• Temporary Reinforcement
• Rock Bolts
Building & Historic Preservation
• Historic Preservation - Restoration & Pinning of Stone Elements
• Architecture Concrete Elements
• Slabs
Exposure of Concrete to De-Icing Chlorides
• Bridges & Railings
• Median Barriers
• Parking Structures
• Approach Slabs
• Continuously Reinforced Concrete Paving
• Precast Elements
• Salt Storage Facilities
Masonry Strengthening
• Seismic, Wind or Blast Strengthening of Unreinforced Masonry
• Strengthening for “Event Loading” of Clay & Concrete Masonry
Exposure of Concrete to Marine Chlorides
• Coastal Construction exposed to Salt Spray
• Sea Walls, Wharfs & Dry Docks
• Desalinization Intakes
• Port Aprons
Exposure of Concrete to High Voltages & Electromagnetic Fields
• Light & Heavy Rail
• High Voltage Substations
• Radio Frequency Sensitive Areas
• Cable Ducts & Banks
• Hospital MRI Areas
• Aluminum Smelters & Steel Mills
• High Speed Highway Tolling Zones
• Airport Radio & Compass Calibration Pads

American Fiberglass Rebar products
(702) 567-2514 Direct or (885) 6409861 Toll Free. Email sales@americanrebar.com

American Concrete Institute (ACI)

440.1R-06: Guide for the Design and Construction of Structural Concrete Reinforced with FRP Bars

440.5-08: Specification for Construction with Fiber-Reinforced Polymer Reinforcing Bars

440.6-08: Specification for Carbon and Glass Fiber-Reinforced Polymer Bar Materials for Concrete Reinforcement

440.3R-12: Guide Test Methods for Fiber-Reinforced Polymer (FRP) Composites for Reinforcing or Strengthening Concrete Masonry Structures

440.2R-08: Guide for the Design and Construction of Externally Bonded FRP Systems for Strengthening Concrete Structures

440.7R-10: Guide for the Design and Construction of Externally Bonded Fiber-Reinforced Polymer Systems for Strengthening Unreinforced Masonry Structures
 
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