Q
QUAKE WRAP INC.
QuakeWrap, Inc. is the original provider of fiber reinforced polymer (FRP) products and systems for infrastructure renewal, including the repair and strengthening of bridges, towers, tunnels, buildings, marine piles, seawalls and more. QuakeWrap is headquartered in Tucson, Ariz., and was founded over 20 years ago by University of Arizona Civil Engineering Professor Dr. Mo Ehsani, a pioneer in the development of innovative FRP products for repair of concrete, masonry, steel and timber.
Country/Area :United States
Company Email :admin@quakewrap.com.au
Industry :Chemicals, Petrochemicals, Glass & GasesSports & EntertainmentManufacturingMother, Kids & ToysMachinery
Company address :6840 S Tucson Blvd, Tucson, Arizona, 85756, United States
Company website :*****
Company phone :(520) 791-7000
Established :1994
Company Revenue :$1,335,000
Number of employees :29
SIC Code :28289
NAICS Code :32325
Main Products :Prof. Mo EhsaniAward-Winning ProjectsChemical ProcessingCellular Communication TowersPulp & Paper PlantsParking GaragesUtility TunnelsMulti-family Residential PropertiesEngineering ServicesRecreational & Entertainment (Gyms/Stadiums)Cooling TowersSpecialty Repair ContractorsChimneys & SmokestacksPorts / Port AuthoritiesCoal & AshMagazine ArticlesUtility PolesSubmerged PilesPrecious Metals MiningColleges & UniversitiesOil Transmission LinesBridges & TransportationSeawalls & Sheet PilesOffice & Business PropertiesRefining & PetrochemicalHistoric PreservationsHospitality Facilities (Hotels/Restaurants)General ContractorsMarine Structures (Marinas/Docks/Piers/Jetties)Manufacturing PlantsQuarry / Open Pita revolutionary onsite manufactured pipe of virtually any size and length .Installation VideosSeismic RetrofitCoastal Homes and BusinessesBridge PilingManholes / Access PointsHealthcare Facilities (Hospitals/Medical Offices)State/County/Municipal DOTsForce ProtectionPipe RepairWaste WaterPower GenerationMass Transit (Subways / Trolleys)VA HospitalsTechnical PapersUtility VaultsUtility ContractorsOff Shore Drilling / PlatformsForce Protection / Blast MitigationMarine ContractorsHistorical Properties
Web Summary
Q1: What is the primary purpose of using Fiber Reinforced Polymer (FRP) in various industries?
A1: The primary purposes of using FRP are to distribute loads among all fibers, protect fibers from environmental effects, and provide exceptional strength-to-weight ratio.
Q2: In which industries does FRP excel due to its superior properties?
A2: FRP excels in aerospace engineering, automotive manufacturing, infrastructure development, and marine construction, among other industries, due to its unique combination of strength, durability, corrosion resistance, and lightweight characteristics.
Q3: What makes FRP a reliable material choice for numerous industries seeking long-lasting solutions?
A3: The exceptional ability of FRP to withstand corrosive elements, combined with its physical properties that are different when measured along different axes or directions, make it an ideal material choice for industries requiring durable and versatile solutions.
Q4: How does the composition of FRP contribute to its corrosion resistance?
A4: The combination of carbon or glass fibers with a plastic matrix in FRP creates a corrosion barrier that prevents environmental damage and degradation, making it an ideal material for applications in corrosive environments such as marine industries.
Q5: What is the benefit of using FRP products in repairing concrete structures?
A5: Using FRP products can add significant weight to a building, requiring strengthening of the footings and foundations. In contrast, adding a layer of FRP that is less than 0.1 inch thick eliminates this issue, resulting in massive savings in both time and cost.
Q6: What are some of the applications where FRP finds extensive use due to its durability?
A6: FRP is commonly used in creating strong walls and surfaces that are scratch-resistant and capable of withstanding high impacts, making it suitable for pipelines, schools, hospitals, recreational facilities, and other buildings where durability is crucial.
Q7: What is the cost-effectiveness of using FRP materials compared to traditional materials?
A7: The cost-effectiveness of FRP materials has been demonstrated through a study that showed more than 20% reduction in construction costs when compared to traditional materials, offering significant savings for industries and projects.
Q8: How does the long-lasting durability of FRP contribute to its economic benefits?
A8: The long-lasting durability of FRP contributes to its economic benefits by reducing maintenance requirements, eliminating delays due to material delivery issues, and providing a cost-effective solution for repairing and strengthening deteriorated and aging infrastructure.
A1: The primary purposes of using FRP are to distribute loads among all fibers, protect fibers from environmental effects, and provide exceptional strength-to-weight ratio.
Q2: In which industries does FRP excel due to its superior properties?
A2: FRP excels in aerospace engineering, automotive manufacturing, infrastructure development, and marine construction, among other industries, due to its unique combination of strength, durability, corrosion resistance, and lightweight characteristics.
Q3: What makes FRP a reliable material choice for numerous industries seeking long-lasting solutions?
A3: The exceptional ability of FRP to withstand corrosive elements, combined with its physical properties that are different when measured along different axes or directions, make it an ideal material choice for industries requiring durable and versatile solutions.
Q4: How does the composition of FRP contribute to its corrosion resistance?
A4: The combination of carbon or glass fibers with a plastic matrix in FRP creates a corrosion barrier that prevents environmental damage and degradation, making it an ideal material for applications in corrosive environments such as marine industries.
Q5: What is the benefit of using FRP products in repairing concrete structures?
A5: Using FRP products can add significant weight to a building, requiring strengthening of the footings and foundations. In contrast, adding a layer of FRP that is less than 0.1 inch thick eliminates this issue, resulting in massive savings in both time and cost.
Q6: What are some of the applications where FRP finds extensive use due to its durability?
A6: FRP is commonly used in creating strong walls and surfaces that are scratch-resistant and capable of withstanding high impacts, making it suitable for pipelines, schools, hospitals, recreational facilities, and other buildings where durability is crucial.
Q7: What is the cost-effectiveness of using FRP materials compared to traditional materials?
A7: The cost-effectiveness of FRP materials has been demonstrated through a study that showed more than 20% reduction in construction costs when compared to traditional materials, offering significant savings for industries and projects.
Q8: How does the long-lasting durability of FRP contribute to its economic benefits?
A8: The long-lasting durability of FRP contributes to its economic benefits by reducing maintenance requirements, eliminating delays due to material delivery issues, and providing a cost-effective solution for repairing and strengthening deteriorated and aging infrastructure.
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