Product Category | Product Line | Product Class | Product Class Description | Product Name | Product Description | Technical Data Sheet | Safety Data Sheet |
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Concrete Repair Materials | Tstrata IRC™ | Infuseable Rapid Cure Restoration Material | Tstrata IRC™is a specially formulated, one part microsilica modified concrete restoration material with integral corrosion inhibitor designed for restoration of a wide variety of concrete structures. It is a premixed, dry packaged concrete material that contains pea gravel and is suitable for interior and exterior installation. Requiring only the addition of water Tstrata IRC is a rapid curing, high strength material with extended working time for ease of placement. It is handled like ordinary high slump concrete and can be used in placements from 1 inch (25 mm) to full depth. | Compressive Strength - ASTM C39 | Technical Data Sheet | Safety Data Sheet | |
Concrete Repair Materials | Tstrata IRC™ | Infuseable Rapid Cure Restoration Material | Tstrata IRC™is a specially formulated, one part microsilica modified concrete restoration material with integral corrosion inhibitor designed for restoration of a wide variety of concrete structures. It is a premixed, dry packaged concrete material that contains pea gravel and is suitable for interior and exterior installation. Requiring only the addition of water Tstrata IRC is a rapid curing, high strength material with extended working time for ease of placement. It is handled like ordinary high slump concrete and can be used in placements from 1 inch (25 mm) to full depth. | Flexural Strength - ASTM C348 | Technical Data Sheet | Safety Data Sheet | |
Concrete Repair Materials | Tstrata ISR™ | Infuseable Sulphate Resistant Restoration Material | Tstrata ISR™ is a specially formulated, one part microsilica modified concrete restoration material with integral corrosion inhibitor designed specifically for restoration of sulfur pits. It is a premixed, dry packaged concrete material that contains pea gravel suitable for interior and exterior form and pour and form and pump installation. Requiring only the addition of water Tstrata ISR is a high strength material with extended working time for ease of placement. It is handled like ordinary high slump concrete. | Sulfate Resistance - ASTM C1012 | Safety Data Sheet | Safety Data Sheet | |
Concrete Repair Materials | Tstrata ISR™ | Infuseable Sulphate Resistant Restoration Material | Tstrata ISR™ is a specially formulated, one part microsilica modified concrete restoration material with integral corrosion inhibitor designed specifically for restoration of sulfur pits. It is a premixed, dry packaged concrete material that contains pea gravel suitable for interior and exterior form and pour and form and pump installation. Requiring only the addition of water Tstrata ISR is a high strength material with extended working time for ease of placement. It is handled like ordinary high slump concrete. | Compressive Strength - ASTM C109 | Technical Data Sheet | Safety Data Sheet | |
Concrete Repair Materials | Tstrata Specialty Concrete Mixes™ | Concrete Restoration Materials | Our materials, engineering and field staff have combined their expertise to develop pressurized forming systems that work with our proprietary products to maximize bond with the existing structural member being repaired. Such technology is critical for performance on structural repairs, as a lack of thorough bond can prevent an enlargement or structural repair from achieving its designed structural load bearing capacity. | Tstrata Specialty Concrete Mixes™ | The goal of Tstrata Specialty Mix designs is to achieve the high physical properties and special placement characteristics of bagged materials for large volume repair projects needing the cost efficiency of ready mix production. Our concrete material experts and in-house labs have the ability to work with suppliers to achieve high performanc in a ready mix design by modifying and specifying the proper: | ||
Corrosion Control | Electro Tech CP™ | State-of-the-Art ICCP Systems | STRUCTURAL TECHNOLOGIES offers Impressed Current Cathodic Protection (ICCP) solutions driven and controlled by proprietary power and monitoring devices that deliver precise levels of protective current to embedded steel in concrete and masonry infrastructure. Our products and in-house engineering support provides engineers and owners the most advanced corrosion control and monitoring systems available in the marketplace. | Power Supplies | Designed to produce protective current for steel, STRUCTURAL TECHNOLOGIES manufactures power supplies that: deliver a wide and accurate range of current, to accommodate many different structural and environmental conditions are configured into zones for precise control of protective levels integrate with our proprietary remote control and monitoring | ||
Corrosion Control | Electro Tech CP™ | State-of-the-Art ICCP Systems | TRUCTURAL TECHNOLOGIES offers Impressed Current Cathodic Protection (ICCP) solutions driven and controlled by proprietary power and monitoring devices that deliver precise levels of protective current to embedded steel in concrete and masonry infrastructure. Our products and in-house engineering support provides engineers and owners the most advanced corrosion control and monitoring systems available in the marketplace. | Anodes | Designed to deliver protective current to where it is intended, our corrosion engineers help select the proper configuration and anode types(s) that may include: Titanium mesh, wire, ribbon and probes Platinized wire anodes Metalized coatings Conductive carbon mastic paint anodes | ||
Corrosion Control | Electro Tech CP™ | State-of-the-Art ICCP Systems | TRUCTURAL TECHNOLOGIES offers Impressed Current Cathodic Protection (ICCP) solutions driven and controlled by proprietary power and monitoring devices that deliver precise levels of protective current to embedded steel in concrete and masonry infrastructure. Our products and in-house engineering support provides engineers and owners the most advanced corrosion control and monitoring systems available in the marketplace. | Remote Monitoring & Control | Our combination of proprietary control software and expert technical support allows STRUCTURAL TECHNOLOGIES to produce and custom program the highest levels of ongoing monitoring and system controls. A monitoring system integrated an overall ICCP system allows for: Remote operation and adjustment in power levels Remote rapid assessment Ongoing system maintenance Reliable operation Collection and storage of historical operation and performance data Graphic and / or numerical alarms when operating and protective parameters are not reached or exceeded | ||
Corrosion Control | Electro Tech CP™ | Metalized Corrosion Control Systems | Utilizing commercially available and patented anode alloys, STRUCTURAL TECHNOLOGIES metalized cathodic protection systems are designed to deliver corrosion protection to embedded reinforcing steel in concrete through the galvanic process. | Thermal Spray Coating Materials | Thermally sprayed coatings are obtained by melting a material, atomizing it into small particles and propelling these on to a prepared substrate. The resulting coating cools down and forms a barrier with unique characteristics. These include strong bonds and resistance to atmospheric corrosion, high temperatures, corrosion, and chemical attack. | ||
Corrosion Control | LifeJacket® | Galvanic Cathodic Protection System | LifeJacket® is a maintenance-free system its current output self adjusts to meet changes in temperature, humidity, concrete resistivity and a number of other factors, delivering optimum corrosion protection to the structure at all tim | LifeJacket® | The LifeJacket® Cathodic Protection System uses a proprietary zinc mesh anode placed directly against the inside face of a stay-in-place fiberglass form, and is proven to stop corrosion by providing an electrical current to the affected region. This current is produced through a galvanic process and thus, does not require a remote power supply. | ||
Corrosion Control | LifePanel™ | Galvanic Cathodic Protection System | LifePanel™ is a galvanic cathodic protection system that is attached to the exterior of concrete surfaces to stop corrosion by providing a uniform electrical current to the affected region. The panels cover large areas and may be custom designed or configured to fit nearly any structure type. | LifePanel™ | The panels are an engineered composite that has a rigid outer shell, with an inner layer of zinc mesh anode encased in a proprietary conductive mortar to maximize anode performance. The anode delivers current through a galvanic process and thus, does not require a remote power supply making the LIfePanel system maintenance-free. | ||
Equipment Foundation | Polyshield® | Equipment & Pump Foundations | Damage to concrete foundations for pumps, compressors and other rotating or vibrating equipment presents special challenges to plant maintenance personnel. Repairs to conventional concrete foundations are costly, labor-intensive and time-consuming. Moreover, acid-proofing foundations for corrosive pumps is difficult and prone to repeat failure | ANSI Polyshields | The ANSI Polyshield is a one-piece polymer concrete foundation and baseplate shell and a removable polymer concrete motor block. Pumps and motors are bolted to the polymer surface with cast-in alloy inserts. Each polymer and motor block accomadates two NEMA (IEC) frame sizes. Within limits, motor blocks may be changed to future frame sizes. Polymer motor blocks are supplied in different heights and insert locations for all ANSI group sizes and motor combinations. | ||
Equipment Foundation | Polyshield® | Equipment & Pump Foundations | Damage to concrete foundations for pumps, compressors and other rotating or vibrating equipment presents special challenges to plant maintenance personnel. Repairs to conventional concrete foundations are costly, labor-intensive and time-consuming. Moreover, acid-proofing foundations for corrosive pumps is difficult and prone to repeat failure | Custom Polyshields | The Custom Polyshield® is a polymer concrete foundation and baseplate shell with large and thick alloy mounting surfaces for affixing both the pump and motor. The unit is designed to accommodate large end suction, split case, double suction and axial flow pumps with NEMA and non-NEMA motor frames. Custom Polyshields allow large pumps and motors to be installed quickly and reduce installation cost compared to fabricated metal baseplates. | ||
Force Protection | VSL® Bonded, Post-Tensioned Floor Systems | Bonded Post-Tensioning Systems | VSL multistrand PT systems consist of fully bonded prestressed strands contained in corrugated ducts. These systems can be used to provide continuous reinforcement in beams, columns and walls. Bonded multistrand PT systems have been successfully applied to commercial buildings, healthcare and parking structure construction. Benefits include enhanced crack and deflection control and improved durability and resilience. | VSLAB+® Bonded Slab Systems | VSLAB+® bonded tendons consist of prestressed strands contained in low profile ducts that are fully bonded to the surrounding concrete and used to provide continuous reinforcement in slabs. The corrugated ducts are filled with a high-performance cementitious grout that encapsulates the strands and achieve full bond with the surrounding concrete. For aggressive environments, fully encapsulated anchorage systems and ducts are available. Intermediate anchorages systems are used to provide continuity of prestress at construction joints. Design advantages include the ability to limit loss of capacity to localized areas when post tension tendons are cut, increased span lengths and improved load-carrying capacities. | ||
Force Protection | DUCON® Micro-Reinforced Concrete Systems | Moldable Steel | Placement characteristics similar to concrete, combined with the ductility and energy absorption properties of steel, give DUCON® moldable, steel-like characteristics. | Compressive Strength (ASTM C39) | DUCON® composites combine an infuseable ultra high-performance grout with a densely layered MicroMat® steel reinforcement system. The highly-engineered and test-proven system can be custom-designed to a projects specific performance requirements. | Technical Data Sheet | |
Force Protection | DUCON® Micro-Reinforced Concrete Systems | Moldable Steel | Placement characteristics similar to concrete, combined with the ductility and energy absorption properties of steel, give DUCON® moldable, steel-like characteristics. | Elastic Modulus (ASTM C469) | DUCON® composites combine an infuseable ultra high-performance grout with a densely layered MicroMat® steel reinforcement system. The highly-engineered and test-proven system can be custom-designed to a projects specific performance requirements. | Technical Data Sheet | |
Force Protection | DUCON® Micro-Reinforced Concrete Systems | Moldable Steel | Placement characteristics similar to concrete, combined with the ductility and energy absorption properties of steel, give DUCON® moldable, steel-like characteristics. | Tensile Strength (ASTM C496) | DUCON® composites combine an infuseable ultra high-performance grout with a densely layered MicroMat® steel reinforcement system. The highly-engineered and test-proven system can be custom-designed to a projects specific performance requirements. | Technical Data Sheet | |
Force Protection | DUCON® Micro-Reinforced Concrete Systems | Moldable Steel | Placement characteristics similar to concrete, combined with the ductility and energy absorption properties of steel, give DUCON® moldable, steel-like characteristics. | Flexural Strength (ASTM C293) | DUCON® composites combine an infuseable ultra high-performance grout with a densely layered MicroMat® steel reinforcement system. The highly-engineered and test-proven system can be custom-designed to a projects specific performance requirements. | Technical Data Sheet | |
Force Protection | V-Wrap™ Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ C100 | 9 oz per square yard (300 g/m2) unidirectional carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ C200H | 22 oz per square yard (750 g/m2) unidirectional carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ C400H | 40 oz per square yard (1,424 g/m2) unidirectional carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ C200HM | 18 oz per square yard (600 g/m2) unidirectional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ C400HM | 38 oz per square yard (1,300 g/m2) unidirectional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ C220B | 38 oz per square yard (1,300 g/m2) 0°/90° bi-directional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ EG50 | 27 oz per square yard (915 g/m2) unidirectional glass fiber fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ EG50B | 24 oz per square yard (813 g/m2) ±45° bi-directional glass fiber fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ Carbon Fiber Anchors | Unidirectional carbon roving to anchor carbon and glass fabric | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass rods and plates | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ Carbon Fiber Rod | Premanufactured composite carbon/resin rods | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass rods and plates | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ Glass Fiber Rod | Premanufactured composite glass/resin rods | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ high strength carbon and glass rods and plates | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ Carbon Fiber Plate | Premanufactured composite carbon/resin plates | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ resins used as an adhesive, surface primer, tack coat and saturant. | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ 770 | Adhesive for FRP Fabrics | Techncial Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ resins used as an adhesive, surface primer, tack coat and saturant. | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ 700S | Epoxy Adhesive | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ - Protection From Standoff Threats | V-Wrap™ resins used as an adhesive, surface primer, tack coat and saturant. | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ PF | Epoxy Putty Filler | Technical Data Sheet | Safety Data Sheet |
Force Protection | V-Wrap™ Protection From Standoff Threats | Optional V-Wrap™ coating for systems that may be exposed to elevated temperatures. | V-Wrap™ Systems are engineered to meet a project's specific requirements. System components are selected to optimize application performance, and may include any combination of fabrics, laminates, resins, and coatings: | V-Wrap™ FPS | Single component, spray applied, specialized fire proofing material | Technial Data Sheet | Safety Data Sheet |
Force Protection | VSL® Bonded, Post-Tensioned Floor Systems | Bonded Post-Tensioning Systems | VSL multistrand PT systems consist of fully bonded prestressed strands contained in corrugated ducts. These systems can be used to provide continuous reinforcement in beams, columns and walls. | VSLAB+® Bonded Slab Systems | VSLAB+® bonded tendons consist of prestressed strands contained in low profile ducts that are fully bonded to the surrounding concrete and used to provide continuous reinforcement in slabs. The corrugated ducts are filled with a high-performance cementitious grout that encapsulates the strands and achieve full bond with the surrounding concrete. For aggressive environments, fully encapsulated anchorage systems and ducts are available. Intermediate anchorages systems are used to provide continuity of prestress at construction joints. Design advantages include the ability to limit loss of capacity to localized areas when post tension tendons are cut, increased span lengths and improved load-carrying capacities. | ||
Force Protection | VSL® Bonded, Post-Tensioned Floor Systems | Bonded Multistrand Systems | VSL multistrand PT systems consist of fully bonded prestressed strands contained in corrugated ducts. These systems can be used to provide continuous reinforcement in beams, columns and walls. | Bonded Multistrand Systems | A single multistrand tendon can hold up to fifty-five 0.5 or 0.6 strands encased in plastic or steel duct and is fully bonded using a high-performance grout. When bonded multistrand systems are used for large structural members such as beams and transfer girders, design advantages include increased span lengths and load-carrying capacity and reduced deflection. | ||
Force Protection | Tstrata Steel Plate™ | Tstrata Steel Plate™ solutions are custom designed and fabricated to meet a variety of stiffness and strength increase requirements from blast protection to forced entry mitigation | VSL multistrand PT systems consist of fully bonded prestressed strands contained in corrugated ducts. These systems can be used to provide continuous reinforcement in beams, columns and walls. | Tstrata Steel Plate™ | Typical steel plate applications cover a wide range of sizes and shapes. Plate grade, thickness and type of steel are highly dependent on the particular application. Physical properties such as strength, abrasion resistance, corrosion resistance, energy absorption and constructability (forming, welding etc.) vary based on the grade and quality and design of the steel plate solution. | ||
Force Protection | Tstrata Enlargement Systems | Tstrata Enlargement Systems bond additional reinforced concrete to existing structures and may be customized for any application. These systems are ideal for situations that require improved strength and stiffness | Tstrata Enlargement Systems | STRUCTURAL TECHNOLOGIES' Tstrata Enlargement Systems bond additional reinforced concrete to existing structures. Our systems are used to increase or restore load-carrying capacity to a variety of structures. Customized for every application, enlargement and overlay systems are ideal for situations that require improved strength and stiffness. | |||
Moisture Control | Electro Tech CP EOP™ | Dewatering System | Electro Tech CP EOP™ is a proprietary electro osmotic system that controls movement of water through concrete under the influence of a pulsating electric field. An electrochemical solution, this state-of-the-art technology has been engineered by STRUCTURAL TECHNOLOGIES for various applications to control moisture and corrosion in concrete. | Electro Tech CP EOP™ | In selected applications, the patented Electro Tech CP EOP Dewatering System provides the ability to mitigate chronic moisture problems in concrete by lowering moisture transmission and content through concretes pore and capillary structure. It can be used alone, or in conjunction with other moisture control solutions to extend the service life of concrete | ||
Moisture Control | MJS™ | Monolith Joint Seal System | STRUCTURAL TECHNOLOGIES Moisture Control Team provides solution building services for difficult-to-solve moisture problems. Our specialty is taking on problems where traditional products and design solutions have failed. Our experts integrate with engineers, owners and builders to assist with initial assessments through design and material selection | MJS™ Monolith Joint Seal System | STRUCTURAL TECHNOLOGIES MJS is a proprietary replacement waterstop monolith joint seal system that controls leakage of water through existing joints, particularly in dams, locks, large retaining walls and other structures. The system is installed in a drilled hole and uniformly pressurized to offset hydrostatic pressure. The MJS System is a long-lasting solution that holds up to water and joint movement without damaging the system itself. | ||
Pipe Rehabilitation | StrongPIPE® Hybrid FRP | Trenchless Pipeline Upgrade: StrongPIPE® Hybrid FRP | The StrongPIPE® Hybrid FRP system is a proprietary composite that is comprised of continuously wound steel tensile wire reinforcement and fiber reinforced polymer (FRP) to provide structural repair and upgrade to pipe segments. The StrongPIPE® system is applicable to all types of pipelines and is installed internally on pipe diameters of 48 inches and larger. The StrongPIPE® system has been value-engineered to create a trenchless and cost-effective renewal option for critical pipeline systems. Expert field application of the system is available through our parent company's specialty contracting partners - the exclusive installers of StrongPIPE®. | V-Wrap™ EG50 | 27 oz per square yard (915 g/m2) unidirectional glass fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | StrongPIPE® Hybrid FRP | Trenchless Pipeline Upgrade: StrongPIPE® Hybrid FRP | The StrongPIPE® Hybrid FRP system is a proprietary composite that is comprised of continuously wound steel tensile wire reinforcement and fiber reinforced polymer (FRP) to provide structural repair and upgrade to pipe segments. The StrongPIPE® system is applicable to all types of pipelines and is installed internally on pipe diameters of 48 inches and larger. The StrongPIPE® system has been value-engineered to create a trenchless and cost-effective renewal option for critical pipeline systems. Expert field application of the system is available through our parent company's specialty contracting partners - the exclusive installers of StrongPIPE®. | V-Wrap™ EG50B | 24 oz per square yard (813 g/m2) unidirectional glass fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | StrongPIPE® Hybrid FRP | Trenchless Pipeline Upgrade: StrongPIPE® Hybrid FRP | The StrongPIPE® Hybrid FRP system is a proprietary composite that is comprised of continuously wound steel tensile wire reinforcement and fiber reinforced polymer (FRP) to provide structural repair and upgrade to pipe segments. The StrongPIPE® system is applicable to all types of pipelines and is installed internally on pipe diameters of 48 inches and larger. The StrongPIPE® system has been value-engineered to create a trenchless and cost-effective renewal option for critical pipeline systems. Expert field application of the system is available through our parent company's specialty contracting partners - the exclusive installers of StrongPIPE®. | V-Wrap™ 770 | Epoxy Adhesive | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | V-Wrap™ Carbon Fiber System | FRP Reinforcement: Fabrics | V-Wrap Carbon Fiber is a structural strengthening system for the restoration or renewal of pressure pipe. The system has been tested and meets or exceeds durability requirements necessary to provide the desired service life for pipeline structures. | V-Wrap™ C200H | 18 oz per square yard (600 g/m2) unidirectional carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | V-Wrap™ Carbon Fiber System | FRP Reinforcement: Fabrics | V-Wrap Carbon Fiber is a structural strengthening system for the restoration or renewal of pressure pipe. The system has been tested and meets or exceeds durability requirements necessary to provide the desired service life for pipeline structures. | V-Wrap™ C400-H | 38 oz per square yard (1,300 g/m2) unidirectional carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | V-Wrap™ Carbon Fiber System | FRP Reinforcement: Fabrics | V-Wrap Carbon Fiber is a structural strengthening system for the restoration or renewal of pressure pipe. The system has been tested and meets or exceeds durability requirements necessary to provide the desired service life for pipeline structures. | V-Wrap™ C200HM | 18 oz per square yard (600 g/m2) unidirectional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | V-Wrap™ Carbon Fiber System | FRP Reinforcement: Fabrics | V-Wrap Carbon Fiber is a structural strengthening system for the restoration or renewal of pressure pipe. The system has been tested and meets or exceeds durability requirements necessary to provide the desired service life for pipeline structures. | V-Wrap™ C400HM | 38 oz per square yard (1,300 g/m2) unidirectional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | V-Wrap™ Carbon Fiber System | FRP Reinforcement: Fabrics | V-Wrap Carbon Fiber is a structural strengthening system for the restoration or renewal of pressure pipe. The system has been tested and meets or exceeds durability requirements necessary to provide the desired service life for pipeline structures. | V-Wrap™ C220B | 38 oz per square yard (1,300 g/m2) 0°/90° bi-directional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | V-Wrap™ Carbon Fiber System | FRP Reinforcement: Fabrics | V-Wrap Carbon Fiber is a structural strengthening system for the restoration or renewal of pressure pipe. The system has been tested and meets or exceeds durability requirements necessary to provide the desired service life for pipeline structures. | V-Wrap™ EG50 | 27 oz per square yard (915 g/m2) unidirectional glass fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | V-Wrap™ Carbon Fiber System | FRP Reinforcement: Fabrics | V-Wrap Carbon Fiber is a structural strengthening system for the restoration or renewal of pressure pipe. The system has been tested and meets or exceeds durability requirements necessary to provide the desired service life for pipeline structures. | V-Wrap™ EG50B | 24 oz per square yard (813 g/m2) unidirectional glass fiber fabric | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | V-Wrap™ Carbon Fiber System | FRP Resins | V-Wrap Carbon Fiber is a structural strengthening system for the restoration or renewal of pressure pipe. The system has been tested and meets or exceeds durability requirements necessary to provide the desired service life for pipeline structures. | V-Wrap™ 770 | Epoxy Adhesive | Technical Data Sheet | Safety Data Sheet |
Pipe Rehabilitation | XPT™ | External Post-Tensioning System | XPT™ | The XPT External Post-Tensioning System utilizes externally placed post-tensioned tendons around the exterior circumference of an existing pipe. An XPT tendon consists of high-strength steel strand, coated and sheathed in extruded plastic for corrosion protection, and an anchorage assembly. The strand is looped around the host pipe and stressed at the anchorage utilizing hydraulic jacks. All of STRUCTURAL TECHNOLOGIES' XPT Systems feature VSL hardware components. | |||
Post-Tensioning Systems | VSL® Post-Tensioning | Leveraging its high-strength properties and industry reputation for proven performance, STRUCTURAL TECHNOLOGIES has successfully incorporated VSL® technology into its strengthening-related products and systems including: | Barrier Cable Systems | Our barrier cable systems are compliant with all International Building Code standards and feature galvanized 0.5, 7-wire steel strands that can be packaged to include design, installation and fabrication of external anchoring devices, plates, cables, wedge sets, and stressing equipment. We offer external systems, internal/embedded systems and no stressing access systems which can be used for new structure or existing structure applications. Various system advantages include adaptability to as-built conditions, ease of installation, aesthetics, as well as an economical alternative to traditional systems. | |||
Post-Tensioning Systems | Post Tensioning Repair | Post-Tensioning Repair Products & Systems | STRUCTURAL TECHNOLOGIES has an array of specialized products and systems used to repair, strengthen and protect post-tensioned structures. Our inventory includes product solutions for every component of a post-tensioning system as well as specialized equipment used to install these systems in existing structures. | Unbonded PT Anchorages & Splices | STRUCTURAL TECHNOLOGIES has developed and provides various anchorages and splicing solutions for the repair and replacement of monostrand and buttonhead wire systems, including: Center stressing anchors Torque stressing anchors Splice chucks Buttonhead to monostrand combination anchorages Live and dead end anchors Lock off anchorages | ||
Post-Tensioning Systems | Post Tensioning Repair | Post-Tensioning Repair Products & Systems | STRUCTURAL TECHNOLOGIES has an array of specialized products and systems used to repair, strengthen and protect post-tensioned structures. Our inventory includes product solutions for every component of a post-tensioning system as well as specialized equipment used to install these systems in existing structures. | Bonded PT Anchorages | STRUCTURAL TECHNOLOGIES offers replacement anchorages for the repair of bonded multistrand post-tensioning systems, including: Thin slab bonded anchorages (2 - 4 strands) Bonded multistrand anchorages (4+ strands) | ||
Post-Tensioning Systems | Post Tensioning Repair | Post-Tensioning Repair Products & Systems | STRUCTURAL TECHNOLOGIES has an array of specialized products and systems used to repair, strengthen and protect post-tensioned structures. Our inventory includes product solutions for every component of a post-tensioning system as well as specialized equipment used to install these systems in existing structures. | Strand Systems | STRUCTURAL TECHNOLOGIES provides high strength (270 ksi) strand to repair any type of post-tensioning system, including: Sheathed strand Bare strand VStrand Heat Resistive Tendons | ||
Post-Tensioning Systems | Post Tensioning Repair | Post-Tensioning Repair Products & Systems | STRUCTURAL TECHNOLOGIES has an array of specialized products and systems used to repair, strengthen and protect post-tensioned structures. Our inventory includes product solutions for every component of a post-tensioning system as well as specialized equipment used to install these systems in existing structures. | Bonded PT Duct & Grouting Systems | For repair of voids in bonded post-tensioning tendons, STRUCTURAL TECHNOLOGIES offers specialized products and materials, including: VGrout+ High performance admixtures for cementitious grout HDPE plastic duct and mechanical coupler systems | ||
Post-Tensioning Systems | Post Tensioning Repair | Post-Tensioning Repair Products & Systems | STRUCTURAL TECHNOLOGIES has an array of specialized products and systems used to repair, strengthen and protect post-tensioned structures. Our inventory includes product solutions for every component of a post-tensioning system as well as specialized equipment used to install these systems in existing structures. | PT Equipment | STRUCTURAL TECHNOLOGIES develops customized equipment for specific project needs and offers specialized equipment for the repair of post-tensioned concrete structures including: Monostrand stressing rams Multistrand stressing rams Detensioning rams Vacuum assisted grouting for bonded PT repair | ||
Post-Tensioning Systems | DuraStor™ Tanks | Tank Roof | DuraStor Tanks (AWWA D115 Tendon Prestressed Concrete Tanks) offer the benefits of prestressed concrete and the geometric flexibility of conventionally reinforced concrete. | Flat Roof | The roof slab is cast in a single placement with no construction joints. This method results in a watertight slab that eliminates the possibility of substances entering the tank and contaminating the contents. The roof slab is column-supported with typical spans in the 30-foot range each way. Slab thickness is approximately 8 inches. Roof shoring is placed immediately following the column and column footing placement to minimize construction time. Post-tensioning tendons are placed orthogonally as in a typical two-way suspended slab and are "stage stressed" in the same manner as the floor slab tendons. After the tendons are stressed, the shoring is removed through access hatches. Dome roof prestressed concrete tank | ||
Post-Tensioning Systems | DuraStor™ Tanks | Tank Roof | DuraStor Tanks (AWWA D115 Tendon Prestressed Concrete Tanks) offer the benefits of prestressed concrete and the geometric flexibility of conventionally reinforced concrete. | Dome Roof | Column-supported flat roofs are often chosen for buried tanks or where a less visible tank is desired. A cast-in-place concrete dome is an efficient option for circular tanks where a flat roof is not required | ||
Post-Tensioning Systems | DuraStor™ Tanks | Tank Walls | DuraStor Tanks (AWWA D115 Tendon Prestressed Concrete Tanks) offer the benefits of prestressed concrete and the geometric flexibility of conventionally reinforced concrete. | Tank Walls | The wall is composed of full-height segments frequently 12-inches thick. Theyre cast in lengths of approximately 75 feet with no horizontal construction joints. Post-tensioning tendons placed horizontally may be tensioned at pilasters or pilasters may be eliminated depending on the project requirements. Tendons are also placed vertically to provide compression to the concrete and accommodate vertical bending moments and thermal stresses. | ||
Post-Tensioning Systems | DuraStor™ Tanks | Tank Floor Slabs | DuraStor Tanks (AWWA D115 Tendon Prestressed Concrete Tanks) offer the benefits of prestressed concrete and the geometric flexibility of conventionally reinforced concrete. | Tank Floor Slabs | Joints in a floor slab can allow liquids to leak out of a tank creating the possibility of adversely affecting the environment and/or undermining the structures foundation. Joints can also allow substances to seep into the tank and potentially contaminate the contents. DuraStor tank floors are cast in a single placement with no joints or dowels. The floor is a highly reinforced ductile concrete membrane, normally five inches thick, that can tolerate differential movements while maintaining watertightness. The tendons are "stage-stressed" within 48 hours of casting the floor slab to eliminate shrinkage cracks by providing immediate precompression to the concrete. | ||
Seismic | V-Wrap™ | FRP System | STRUCTURAL TECHNOLOGIES is widely recognized as the leader in developing cutting-edge technology for strengthening infrastructure including structural enhancements for seismic retrofit. | V-Wrap | Our state-of-the-art V-Wrap FRP system utilizes lightweight, durable, high-strength carbon and glass fibers with 100% solids epoxy. Used to increase or restore seismic load-carrying capacity to a variety of structural elements, our systems are advantageous on applications with limited access or complex geometries. | Technical Data Sheet | |
Seismic | Tstrata Enlargement Systems™ | STRUCTURAL TECHNOLOGIES is widely recognized as the leader in developing cutting-edge technology for strengthening infrastructure including structural enhancements for seismic retrofit. | Tstrata Enlargement Systems | STRUCTURAL TECHNOLOGIES' Tstrata Enlargement Systems bond additional reinforced concrete to existing structures. Our systems are used to increase or restore load-carrying capacity to a variety of structures. Customized for every application, enlargement and overlay systems are ideal for situations that require improved strength and stiffness. | |||
Seismic | VSL® | External P-T | STRUCTURAL TECHNOLOGIES is widely recognized as the leader in developing cutting-edge technology for strengthening infrastructure including structural enhancements for seismic retrofit. | VSL® External P-T | VSL® post tensioning systems are available exclusively in the United States through STRUCTURAL TECHNOLOGIES. VSL® products are technically advanced, industry proven and have a well-earned reputation for their quality, reliability, and durabilit | ||
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ C400HM | 38 oz per square yard (1,300 g/m2) unidirectional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ C400H | 40 oz per square yard (1,424 g/m2) unidirectional carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ C220B | 38 oz per square yard (1,300 g/m2) 0°/90° bi-directional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ C200H | 22 oz per square yard (750 g/m2) unidirectional carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ C200HM | 18 oz per square yard (600 g/m2) unidirectional high-modulus carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ C100 | 9 oz per square yard (300 g/m2) unidirectional carbon fiber fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ EG50 | 27 oz per square yard (915 g/m2) unidirectional glass fiber fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ EG50B | 24 oz per square yard (813 g/m2) ±45° bi-directional glass fiber fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ HM Carbon Fiber Anchor | Unidirectional high modulus carbon fiber to anchor carbon and glass fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Fabrics | V-Wrap™ high strength carbon and glass fabrics | V-Wrap™ V-Wrap Glass Fiber Anchor | Unidirectional fiber glass to anchor carbon and glass fabric | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Pre-Cured Laminates | V-Wrap™ high strength carbon and glass rods and plates | V-Wrap™ Carbon Fiber Rod | Premanufactured composite carbon/resin rods | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Pre-Cured Laminates | V-Wrap™ high strength carbon and glass rods and plates | V-Wrap Glass Fiber Rod | Premanufactured composite glass/resin rods | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Reinforcement: Pre-Cured Laminates | V-Wrap™ high strength carbon and glass rods and plates | V-Wrap Carbon Fiber Plate | Premanufactured composite carbon/resin plates | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Resins | V-Wrap™ resins used as an adhesive, surface primer, tack coat and saturant. | V-Wrap770 | Adhesive for FRP Fabrics | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Resins | V-Wrap™ resins used as an adhesive, surface primer, tack coat and saturant. | V-Wrap 700S | Adhesive for FRP Pre-Cured Laminates (Rods, Plates & Anchors) | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | FRP Resins | V-Wrap resins used as an adhesive, surface primer, tack coat and saturant. | V-Wrap PF | Epoxy Putty Filler | Technical Data Sheet | Safety Data Sheet |
Strengtheing | V-wrap Composite Systems | Fire Protection Coatings | Optional V-Wrap coating for systems that may be exposed to elevated temperatures. | V-Wrap FPS | Single component, spray applied, specialized fire proofing material | Technical Data Sheet | Safety Data Sheet |
Strengtheing | DUCON® Micro-Reinforced Concrete Systems | DUCON® (Composite) | DUCON® composites combine an infuseable ultra high-performance grout with a densely layered MicroMat® steel reinforcement system. The highly-engineered and test-proven system can be custom-designed to a projects specific performance requirements. | Compressive Strength (ASTM C39) | |||
Strengtheing | DUCON® Micro-Reinforced Concrete Systems | DUCON® (Composite) | DUCON® composites combine an infuseable ultra high-performance grout with a densely layered MicroMat® steel reinforcement system. The highly-engineered and test-proven system can be custom-designed to a projects specific performance requirements. | Elastic Modulus (ASTM C469) | |||
Strengtheing | DUCON® Micro-Reinforced Concrete Systems | DUCON® (Composite) | DUCON® composites combine an infuseable ultra high-performance grout with a densely layered MicroMat® steel reinforcement system. The highly-engineered and test-proven system can be custom-designed to a projects specific performance requirements. | Tensile Strength (ASTM C496) | |||
Strengtheing | DUCON® Micro-Reinforced Concrete Systems | DUCON® (Composite) | DUCON® composites combine an infuseable ultra high-performance grout with a densely layered MicroMat® steel reinforcement system. The highly-engineered and test-proven system can be custom-designed to a projects specific performance requirements. | Flexural Strength (ASTM C293) | |||
Strengtheing | VSL ® External Post-Tensioning | STRUCTURAL TECHNOLOGIES external post-tensioning systems utilize high strength prestressing cables, strands and steel bars, and are used to increase or restore load-carrying capacity to a variety of structures. Post-tensioning is ideal for situations that require significant load capacity increases or deflection and/or crack control | Unbonded Monostrand Systems | VSL Monostrand Systems are coated with grease as a permanent corrosion inhibitor and sheathed in extruded plastic to provide double corrosion protection, as well as prevent any bonding between the strands and the surrounding concrete. In aggressive environments, special sleeves are used to join the sheaths to the anchorages, and each anchorage includes a protective cap. Available in diameters of 0.5" (13mm) and 0.6" (15mm), these light, flexible monostrands can be easily and rapidly installed. | |||
Strengtheing | VSL ® External Post-Tensioning | STRUCTURAL TECHNOLOGIES external post-tensioning systems utilize high strength prestressing cables, strands and steel bars, and are used to increase or restore load-carrying capacity to a variety of structures. Post-tensioning is ideal for situations that require significant load capacity increases or deflection and/or crack control | VStrand Heat Resistive Tendons | VSLs innovative VStrand heat resistive tendons, have been developed to mitigate the detrimental thermal effects of a fire on the strength of the prestressing steel. These tendons are specially designed to promote fire protection for strengthening systems used in bridges, parking garages, and other structures where the risk of a potential fire is a concern. | |||
Strengtheing | VSL ® External Post-Tensioning | STRUCTURAL TECHNOLOGIES external post-tensioning systems utilize high strength prestressing cables, strands and steel bars, and are used to increase or restore load-carrying capacity to a variety of structures. Post-tensioning is ideal for situations that require significant load capacity increases or deflection and/or crack control | Bonded Multistrand Systems | VSL Bonded Multistrand Systems, used typically in bridges and transportation structures, have been successfully installed by VSL in commercial building construction and retrofit. A single multistrand tendon can hold up to 55 strands that are encased in HDPE plastic or steel duct and then encapsulated using a high performance grout. | |||
Strengtheing | Tstrata | Tstrata Enlargement Systems bond additional reinforced concrete to existing structures and may be customized for any application. These systems are ideal for situations that require improved strength and stiffness | Tstrata Enlargement Systems | Tstrata Enlargement Systems bond additional reinforced concrete to existing structures. Our systems are used to increase or restore load-carrying capacity to a variety of structures. Customized for every application, enlargement and overlay systems are ideal for situations that require improved strength and stiffness. | Safety Data Sheet | ||
tpotTensile Pull Off Tester | t'pot™ | Tensile Pull Off Tester | The tpot Tensile Pull Off Tester covers a variety of pull test procedures for evaluating the tensile strength of a substrate material or the bond strength of a repair or overlay material. Pull off testings are used on many different substrates and repair materials. The tpot is simple to use, with a self-aligning base that can be applied on various surfaces. Always refer to the specified test method or details on dolly size, load rate and test time. | Stroke Indication Pin | The stroke indication pin species the applied tension on the dolly. The pin moves upwards while the hand crank is turned in the + direction. For each pull off test reset the stroke indication pin to 0 or start position by turning in the - direction. |