Reinforcement method Product List and Ranking from 43 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

Reinforcement method Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

  1. コンステック Osaka//General contractors and subcontractors
  2. 横山基礎工事 Hyogo//General contractors and subcontractors
  3. ESP Hiroshima//Other construction industries
  4. 4 日鉄ケミカル&マテリアル コンポジット事業部 Tokyo//Building materials, supplies and fixtures manufacturers
  5. 5 ケー・エフ・シー Osaka//Building materials, supplies and fixtures manufacturers
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Reinforcement method Product ranking

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

  1. Reinforcement of existing beam after hole cutting: "Redouble Method" コンステック
  2. Temporary bridge temporary pier cable-stayed construction method "LIBRA Method" 横山基礎工事
  3. Construction Method Comparison Table ESP
  4. 4 Pole Repair and Reinforcement Method: YCK Method 'Carbon Fiber' ヨシモトポール
  5. 5 Shear Reinforcement Method "RMA Method" ケー・エフ・シー

Reinforcement method Product List

31~45 item / All 372 items

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Hyogo Prefecture Construction Case Study: Reinforcement Method for Existing Rockfall Protection Fences - Implementation of Fence Height Increase

Hyogo Prefecture Construction Case Study: Reinforcement Method for Existing Rockfall Protection Fences - Implementation of Fence Height Increase

Increase fence height using raised components! The materials are lightweight and installation is simple.

Here is a case study of the "Stronger Method" implemented in Hyogo Prefecture. As a result of the construction, the fence height increased from 2.0m to 3.0m. The construction length was L = 39.1m. This method allows for the existing rockfall protection fence to be utilized as is, enabling simple reinforcement and height increase without any special processing of the facility. [Case Study] ■ Height Increase Type (Fence Height: H = 2.0 → 3.0m, Construction Length: L = 39.1m) ■ Hyogo Prefecture (Construction: Fiscal Year 2018) *For more details, please refer to the PDF document or feel free to contact us.

  • Protective fence

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Hyogo Prefecture Construction Case Study: Reinforcement Method for Existing Rockfall Protection Fences, Usable Without Small Heavy Machinery.

Hyogo Prefecture Construction Case Study: Reinforcement Method for Existing Rockfall Protection Fences, Usable Without Small Heavy Machinery.

Simple construction! This method allows for an increase in fence height using raised components.

Here is a case study of the "Stronger Method" conducted in Hyogo Prefecture. As a result of the construction, the fence height increased from 2.0m to 3.0m, with a construction length of L = 39.5m. This method restrains the twisting of the posts with upper and lower reinforcement brackets, allowing for buckling prevention at the base of the posts. Additionally, since no small machinery is used, there is no need to cut down surrounding trees. [Case Study] ■ Raised type (Fence height: H = 2.0 → 3.0m, Construction length: L = 39.5m) ■ Hyogo Prefecture (Construction: Fiscal Year 2018) *For more details, please refer to the PDF document or feel free to contact us.

  • Protective fence

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Reinforcement of Existing Concrete Structures: Outplate Method

Reinforcement of Existing Concrete Structures: Outplate Method

High bending reinforcement effect and high crack control effect! Suitable for the construction of RC and PC hollow slab bridges.

The Outplate method is a reinforcement technique that involves tensioning a prefabricated CFRP plate (Outplate) with anchoring bodies at both ends, fixing and bonding it to an existing concrete structure. Compared to conventional continuous fiber sheet bonding methods, tensioning the Outplate allows for the introduction of prestress into the concrete. This method achieves significant reinforcement effects with a minimal amount of reinforcement material. Since thin CFRP plates are used as tensioning materials, there is almost no change in the appearance or cross-section after reinforcement, making it particularly suitable for the construction of RC and PC hollow slab bridges. 【Features】 ■ High bending reinforcement effect ■ High crack control effect ■ Recovery of deflection ■ Improved durability ■ Minimal maintenance ■ Reinforcement above the supports of continuous girders is possible from the underside *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods

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Repair and reinforcement method for structures: "Strand Sheet Method"

Repair and reinforcement method for structures: "Strand Sheet Method"

Introducing a groundbreaking method that fundamentally solves the problems associated with traditional continuous fiber sheet bonding techniques!

The "Strand Sheet Method" is a repair and reinforcement technique that processes FRP strands, which are impregnated and cured with resin, into sheet form and adheres them to the surfaces of concrete and steel structures using a specialized adhesive. The specialized adhesive also serves as a primer and leveling material. Since resin impregnation and degassing work are not required, sheets can be applied immediately after surface preparation, resulting in reduced construction time and lower costs. Strand sheets are available in a high-elasticity type with a lineup up to 900g/m2, providing greater reinforcement effects with a single layer compared to the toe sheet method. 【Features】 ■ Short construction time and low cost ■ Significant reinforcement effect ■ Simple and high quality ■ Good construction environment ■ The specialized adhesive is grease-like, preventing resin splatter and other issues *For more details, please refer to the PDF materials or feel free to contact us.

  • Renovation and repair methods

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Strand Sheet JCM Embedded Method for Floor Slab Reinforcement

Strand Sheet JCM Embedded Method for Floor Slab Reinforcement

We will introduce a reinforcement method for the upper surface of floor slabs using continuous fiber FRP sheets and ultra-rapid hardening mortar!

The "Strand Sheet JCM Buried Method" is a groundbreaking technique that evolves the conventional bonding reinforcement method using continuous fiber sheets on the top surface of slabs. By combining a joint epoxy resin adhesive with a super-fast hardening fiber-reinforced polymer cement mortar and strand sheets, it enables an overwhelming reduction in construction time. Furthermore, since strength is achieved approximately 3 hours after construction, it also allows for a reduction in traffic regulation time. 【Features】 ■ Realizes rapid construction ■ Short curing time ■ Significant reinforcement effect ■ High durability *For more details, please refer to the PDF materials or feel free to contact us.

  • Renovation and repair methods

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Repair and reinforcement method for structures: "FORCA Tow Sheet Method"

Repair and reinforcement method for structures: "FORCA Tow Sheet Method"

Applicable for the repair of corrosion in steel components! We provide excellent workability, significant repair and reinforcement effects, and high quality.

The "Toshit Method" is a repair and reinforcement technique for steel and concrete structures using continuous fiber sheets. Reinforcement with only resin and carbon fibers prevents rust and is highly effective against salt damage. It offers a high reinforcement effect with high-strength, high-elasticity continuous fibers arranged in one direction. In addition, we also offer repair and reinforcement methods such as the "Strand Sheet Method," which involves attaching sheet-like FRP strands with a special adhesive, and "Toe Anchors." 【Features】 ■ Strong and lightweight continuous fibers ■ High waterproofing properties ■ Simple construction ■ No rust formation ■ Compliant with RC design methods ■ Applicable for repairing corroded steel members *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods

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Repair and reinforcement method for steel structures: "FORCA PL-CF Method"

Repair and reinforcement method for steel structures: "FORCA PL-CF Method"

It is very lightweight and can be easily carried by hand to the site! Carbon fiber does not corrode, making it effective for maintenance management.

The "FORCA PL-CF Method" is a technique for restoring the load-bearing capacity of steel members that have experienced rust progression and a reduction in thickness. By applying a low-elasticity, high-ductility putty material between the steel member and the carbon fiber sheet, the system is designed so that the carbon fiber sheet does not delaminate even when the steel member deforms. This method allows for the application of carbon fiber sheets and strand sheets even on members subjected to compressive and shear forces. 【Features】 ■ Lightweight materials ■ No large tools required for construction ■ Corrosion-resistant ■ Can be processed on-site ■ Does not damage the member *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods

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構造物の補修・補強工法『FORCA(フォルカ)トウプレート工法』

構造物の補修・補強工法『FORCA(フォルカ)トウプレート工法』

簡単施工で大きな補強効果!FRPプレートによるコンクリート構造物の補修・補強工法

『FORCA(フォルカ)トウプレート工法』は、一方向配列の炭素繊維を 熱硬化性樹脂に含浸させ、板状に成型硬化させたCFRPプレートを接着剤で コンクリート表面に貼り付ける補強工法です。 CFRPプレートは炭素繊維シートと比べて単位幅あたりの強度と剛性が 高いので、補修箇所の全面に貼り付ける必要もなく、間隔を空けての 施工も可能。 施工現場で含浸用の含浸・接着剤を使用しないため、上向き施工での 作業者の負担や養生も軽減できます。 【特長】 ■高強度・高剛性 ■1枚でも大きな補強効果 ■上向き作業での「ダレ」から解放 ※詳しくはPDF資料をご覧いただくか、お気軽にお問い合わせ下さい。

  • Renovation and repair methods

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Repair and reinforcement method for concrete structures: "FORCA Tow Sheet Method"

Repair and reinforcement method for concrete structures: "FORCA Tow Sheet Method"

Introducing repair and reinforcement methods for concrete structures using carbon fiber sheets and aramid fiber sheets!

The "FORCA Tow Sheet Method" is a reinforcement technique that involves simply adhering a unidirectionally arranged continuous fiber sheet, called "Tow Sheet," to the surface of concrete using a room-temperature curing epoxy resin, making it highly effective in terms of workability. It demonstrates a high reinforcement effect without increasing weight, allowing for quick responses to concerns in bridge construction such as seismic reinforcement of bridge piers, accommodating live loads on deck slabs, and reinforcing or preventing spalling in tunnels, chimneys, and other concrete structures, as well as preventing crack progression. 【Features】 ■ Excellent workability in reinforcement methods ■ High reinforcement effect without increasing weight ■ Quick response to reinforcement, spalling prevention, and crack progression prevention in structures *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods

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Residential foundation improvement work HySPEED method

Residential foundation improvement work HySPEED method

This is a method for improving the ground using only natural crushed stone that takes the environment into consideration.

In recent years, issues such as environmental pollution (carcinogenic substance hexavalent chromium), asset depreciation (decline in land valuation due to the mixing of cement compounds), and quality defects (residential ground accidents due to inadequate strength verification in design) have been pointed out. The high-speed construction method is an environmentally friendly ground improvement technique that addresses all of the above issues. It is also an excellent method for earthquake countermeasures, such as liquefaction.

  • Earthworks
  • Ground improvement
  • Pile and foundation work

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Seismic reinforcement of existing RC/SRC columns with "Seismic SDJ Panels."

Seismic reinforcement of existing RC/SRC columns with "Seismic SDJ Panels."

Achieve reinforcement while using the building! Shortening the construction period is possible.

The construction method using the "Seismic SDJ Panel" is a seismic reinforcement technique that enables shear reinforcement and axial load capacity enhancement of existing RC and SRC columns. It employs small, lightweight steel panels made of highly corrosion-resistant galvanized steel, which are assembled by fitting together the pressed irregularities of the panels, resulting in a durable and work-efficient method that does not require welding. 【Features】 〇 Lightweight and small (The steel panels are compact and thin, allowing for manual handling.) 〇 No fire used (The steel panels are joined by bolted connections.) 〇 Low noise (No need for anchor installation or chipping work on existing columns.) 〇 Odorless (The steel panels use highly corrosion-resistant galvanized steel, eliminating the need for adhesives like epoxy resin.)

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  • Reinforcement and repair materials

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Steel structure beam opening reinforcement method "Diar Ring"

Steel structure beam opening reinforcement method "Diar Ring"

Significantly improved workability! Introducing a construction method that ensures high product precision and easily secures construction accuracy.

The "DIA Ring" is a reinforcement method for openings targeting steel structure H-shaped cross-section beam members. Depending on the required load capacity, one DS type, one DL type, and two DS types can be used. When using one piece, the entire perimeter is welded on one side without inverting the beam, which greatly enhances workability. In construction, the welding sizes are standardized to 6mm for the DS type and 9mm for the DL type. Since all products of the DS type and DL types DL100 to DL200 are targeted products on both sides, they are easy to manage in terms of quality control. 【Features】 ■ Depending on the required load capacity, it is possible to choose between using one DS or DL type and using two DS types. ■ Significantly reduces the amount of welding required. ■ High product precision allows for easy assurance of construction accuracy. ■ Eliminates the need to "invert the beam" during installation, greatly improving workability. ■ Easy construction management. *For more details, please refer to the PDF materials or feel free to contact us.

  • Renovation and repair methods
  • Reinforcement and repair materials
  • Bridge Construction

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KTB・PCaPC External Frame Seismic Reinforcement Method

KTB・PCaPC External Frame Seismic Reinforcement Method

Excellent seismic performance! Redesigned / Seismic reinforcement using rapid construction PC jointing method.

The "KTB・PCaPC External Frame Seismic Reinforcement" is a seismic reinforcement method that enhances the seismic performance of existing buildings using the PC joint construction method, allowing for continued use even after a major earthquake. Columns and beams are manufactured from high-quality, high-strength PC materials in a factory, enabling rapid construction on-site. Additionally, it allows for the renovation of the building's facade without altering the current living environment in terms of natural light and ventilation, creating a new image. 【Features】 ■ Possesses elastic properties that allow it to return to its original state even after significant deformation from a massive earthquake. ■ Construction can be carried out while the building is in use. ■ Seismic reinforcement work can be completed safely and in a short period. ■ Ground anchors can prevent the building from toppling during an earthquake. ■ Technical evaluation report obtained from the Japan Architectural Disaster Prevention Association. For more details, please refer to the catalog or feel free to contact us.

  • Earthquake-resistant construction method
  • Renovation and repair methods

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Reinforced Soil Wall Method RRR-A Method

Reinforced Soil Wall Method RRR-A Method

Reinforced earth bridge abutment method

The RRR method (Reinforced Railroad with Rigid Facing-Method) is a new soil retention (reinforced soil wall) technique developed as an alternative to traditional retaining wall methods, using the principles of reinforced soil engineering. Traditional retaining walls are structures that, from a mechanical perspective, aim to support external forces (earth pressure) exerted by the soil through the weight of the structure and the ground reaction of the foundation, opposing the soil and relying on force to counteract force. In contrast, the reinforced soil wall method promotes the stabilization of the soil itself by placing tensile reinforcement materials within the soil, embodying a philosophy of coexistence with the soil.

  • Reinforcement and repair materials

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