Reinforcement method Product List and Ranking from 37 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Jul 16, 2025~Aug 12, 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:Jul 16, 2025~Aug 12, 2025
This ranking is based on the number of page views on our site.

  1. null/null
  2. 日鉄ケミカル&マテリアル Tokyo//Building materials, supplies and fixtures manufacturers コンポジット事業部
  3. 新潟ボンド工業 Niigata//Other construction industries
  4. 4 null/null
  5. 5 エターナルプレザーブ Tokyo//Building materials, supplies and fixtures manufacturers
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Reinforcement method Product ranking

Last Updated: Aggregation Period:Jul 16, 2025~Aug 12, 2025
This ranking is based on the number of page views on our site.

  1. Shear Reinforcement Method "RMA Method"
  2. Repair and reinforcement method for concrete structures: "FORCA Tow Sheet Method" 日鉄ケミカル&マテリアル コンポジット事業部
  3. Concrete Structure Repair and Reinforcement Method "FORCA Tow Sheet Method" 新潟ボンド工業
  4. 4 Concrete repair and reinforcement method *NETIS: CG-070007-V
  5. 5 Paralink: Embankment reinforcement method on weak ground (grid method) エターナルプレザーブ

Reinforcement method Product List

31~45 item / All 110 items

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Soil Reinforcement Method "Taille Armé Method"

Soil Reinforcement Method "Taille Armé Method"

Construction is possible even on relatively soft ground! A soil reinforcement method that allows for high vertical embankments.

The "Tail Arm Method" is a soil reinforcement technique that allows for high vertical embankments at a lower cost compared to traditional retaining walls. Due to the vertical embankment, the land required is minimized, enabling effective use of the site. The assembly and construction of components do not require specialized skills or techniques, as they are combinations of standard materials. All materials used are standard products manufactured at factories certified by the Japan Tail Arm Association, under strict quality control, ensuring safety on site. 【Features】 ■ Requires minimal land ■ Can be constructed in a short period ■ No special techniques needed ■ Capable of achieving high vertical embankments ■ Quality control of components is reliable *For more details, please refer to the PDF document or feel free to contact us.

  • Retaining wall

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Soil Reinforcement Method "Terra Trail Method"

Soil Reinforcement Method "Terra Trail Method"

No skilled workers or special techniques are required! We can construct high-safety embankments that take the landscape into consideration.

The "Terra Trail Method" is a soil reinforcement technique that applies the technology of the Tail Arm Method, using mesh panels for sloped wall surfaces. Terra Trail walls are not only economically advantageous but also allow for greening of the wall surface. Additionally, they can be finished with natural stone masonry, enabling designs that consider the landscape. The connection between the strips and mesh panels has been improved in terms of simplicity and constructability with a double hook system. 【Features】 ■ Frees from the visual pressure of vertical walls ■ Allows for the pursuit of natural beauty that harmonizes with the surrounding environment ■ Capable of constructing safe embankments that consider the landscape ■ The angle of the wall surface can be set arbitrarily ■ No skilled workers or special techniques are required *For more details, please refer to the PDF document or feel free to contact us.

  • Retaining wall

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RC pier wrapping reinforcement method "PP method"

RC pier wrapping reinforcement method "PP method"

A groundbreaking seismic reinforcement method that can be effective in areas where construction limits and riverbed obstruction are problematic.

The "PP Method" is a revolutionary seismic reinforcement technique that demonstrates its effectiveness in locations where traditional RC wrapping methods cannot be applied due to construction limits or issues related to river cross-sectional obstruction. Based on the reinforcement ethics of RC and built upon experiments of the PSR method, the reinforcement effect has been confirmed through the public experiment "Positive and Negative Alternating Load Test of Bridge Piers Reinforced with PP MagneLine." It has been adopted as a pilot project by the Ministry of Construction and is gaining attention as a reinforcement method under stringent conditions. 【Features】 ■ Applicable in cases where construction limits or river cross-sectional obstruction are issues ■ Reduces dead load and has minimal impact on foundations ■ Simple construction without the need for formwork ■ Allows for extended lifespan through corrosion prevention effects simultaneously with reinforcement ■ Visual inspection is possible after reinforcement *For more details, please refer to the catalog or feel free to contact us.

  • Airport facilities
  • Renovation and repair methods
  • Other construction services

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Concrete slab repair and reinforcement method "Flat Bar Stitch Method"

Concrete slab repair and reinforcement method "Flat Bar Stitch Method"

Using flat bars! Load recovery method for cracked concrete slabs.

The "Flat Bar Stitching Method" involves cutting a 10mm wide and 100mm deep groove at a right angle on both sides of the cracked and joint areas of the concrete slab, pouring high-strength quick-setting resin mortar into the groove, and inserting a flat bar. In the cracked area, this method connects the concrete slabs, and in the joint area, it restores load transfer, thereby extending the lifespan of the concrete slabs. 【Features】 ■ Can delay the occurrence of new cracks ■ Expected to extend the lifespan of the concrete slabs ■ Allows for traffic to be opened during construction ■ The embedding width of the flat bar is narrow at 10mm, making repair areas less noticeable ■ Enables early traffic reopening *For more details, please refer to the PDF document or feel free to contact us.

  • Paving of sidewalks, roads, parking lots and stadiums

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Seismic reinforcement method for manholes

Seismic reinforcement method for manholes

Can be used in conjunction with anti-corrosion methods! Understand structural dimensions, deterioration conditions, and soil conditions through current surveys and existing document investigations.

The "Manhole Seismic Reinforcement Method" is a technique that addresses the seismic reinforcement of unreinforced manholes (primarily circular) using a seismic reinforcement system (seismic calculations) and carbon fiber (seismic reinforcement). It achieves significant cost reductions and can also be used in conjunction with anti-corrosion methods (coating type). This method complies with the "Guidelines and Explanations for Seismic Measures for Sewer Facilities 2014 Edition (Japan Sewer Association)." 【Features】 ■ Significant cost reduction ■ Adoption of a seismic reinforcement system (seismic calculations) and carbon fiber (seismic reinforcement) ■ Applicable to seismic reinforcement of unreinforced manholes (primarily circular) *For more details, please refer to the PDF materials or feel free to contact us.

  • Earthquake-resistant construction method
  • Renovation and repair methods

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Reinforcement method

Reinforcement method

Has a proven track record of earthquake resistance and contributes to disaster reduction! Simultaneous corrosion protection and structural reinforcement are possible.

The "Reinforcement Method" involves applying a crystal lining material, then attaching carbon fiber or glass cloth (reinforcement fiber sheet), and finishing by applying the crystal lining material again on top. By combining with carbon fiber or glass cloth, it enables corrosion protection while simultaneously providing structural reinforcement (such as crack confinement effects for unreinforced structures, structural reinforcement for rusted rebar areas, and seismic reinforcement). The "Manhole Joint Displacement Prevention Reinforcement" performed in combination with carbon fiber has a proven track record of earthquake resistance, contributing to disaster reduction while achieving cost savings. 【Features】 ■ Corrosion protection ■ Crack confinement effects for unreinforced structures ■ Structural reinforcement for rusted rebar areas ■ Seismic reinforcement ■ Resistance to lateral shaking due to the use of bidirectional carbon fiber *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods

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Reinforcement method using single-sided backing plates with high-strength stud bolts.

Reinforcement method using single-sided backing plates with high-strength stud bolts.

We are working on improving the construction efficiency and quality of the bottom plate reinforcement method for fatigue damage in the welded joints of steel deck plates and U-ribs.

The "high-strength stud bolt" (equivalent to F8T) is a stud bolt suitable for one-sided construction applicable to friction joints. It can be used for joining members of steel structures and reinforcing against corrosion and fatigue damage with backing plates. Additionally, to ensure the quality and shape of stud welding on the underside of steel deck plates, a "stud upward welding system" has been developed. This system consists of an "upward stud welding device," "support rails," "templates," and "welding monitoring equipment." [Features of High-Strength Stud Bolts] ■ Reinforcement of members with closed sections or those with pavement/concrete on the back can be performed from one side only. ■ No drilling is required, preventing damage to existing members and avoiding a decrease in load-bearing capacity. ■ As a high-strength stud bolt for friction joints, it ensures the strength of bolt grade F8T. ■ With fastening tools for high-strength bolts, the specified bolt axial force can be reliably applied. ■ Patent number: 6556490 *For more details, please refer to the PDF document or feel free to contact us.

  • Subsidiary materials
  • Reinforcement and repair materials
  • Other earthworks, foundation works, and exterior floors

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Soil Cutting Slope Reinforcement Method "Makisel Multi-layer Stacking Method"

Soil Cutting Slope Reinforcement Method "Makisel Multi-layer Stacking Method"

Connecting cylindrical tensors with a tensor joiner! Introducing a method to stabilize the slope surface.

The construction method involves connecting tubular tensioners with a tensioner joiner, and after installing a structure filled with locally generated soil on the cut slope, it stabilizes the slope. The materials are lightweight, making assembly and on-site adjustments easy, thus shortening the construction period. This method can also be applied in areas where the installation of conventional mattress baskets is difficult, as well as in locations where the soil is acidic or alkaline, raising concerns about durability due to rust and other factors. 【Features】 - Locally generated soil can be used and filled inside the tubular geogrid structure. - The materials are lightweight and easy to assemble on-site. - The flexible structure can adapt to bends and curves. - Greening of the slope is possible. - The geogrid tensioners are made of high-density polyethylene, preventing rust and offering excellent chemical stability. *For more details, please refer to the PDF materials or feel free to contact us.*

  • Ground foundation construction method
  • Various blocks
  • Stacking blocks

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Strand sheet reinforcement method

Strand sheet reinforcement method

This is a groundbreaking method that fundamentally solves the problems of sheet swelling and defects associated with conventional continuous fiber sheet bonding techniques.

This technology involves processing FRP strands that have been impregnated and cured with resin into sheets, which are then adhered to the surface of concrete structures using a specialized adhesive for repair and reinforcement methods. It can be applied to reinforcement measures for cantilever slabs in concrete bridge decks and the upper parts of main girders. Additionally, it can be used for concrete slabs that suffer from insufficient strength due to floor slab improvements or the increased size of loading vehicles corresponding to the year of bridge construction. The effectiveness of this method increases particularly in areas with heavy traffic where road restrictions occur. 【Features】 ■ Immediate sheet application after surface preparation ■ Excellent workability without the need for resin impregnation or degassing ■ Short construction period and cost-effective ■ Simple and high quality ■ Significant reinforcement effect *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 "Sprayed Floor Slab Bottom Thickening Method"

Repair and reinforcement method "Sprayed Floor Slab Bottom Thickening Method"

Introducing construction methods that can improve load-bearing capacity and durability.

The "Sprayed Floor Slab Thickness Increase Method" is a technique that involves spraying polymer cement mortar to increase thickness and integrate with existing concrete, thereby improving load-bearing capacity and durability. It can be applied to reinforce damaged road bridge RC slabs and beams due to insufficient load capacity caused by changes in design loads or fatigue deterioration from wheel loads. Additionally, it is applicable for bending and shear reinforcement of RC structures such as tunnels and box culverts. 【Features】 ■ Improved load-bearing capacity and durability ■ Reduced existing rebar stress and deflection ■ Restores the slab function and significantly enhances fatigue durability ■ Possible improvements in workability and cost-effectiveness *For more details, please download the PDF or feel free to contact us.

  • Renovation and repair methods

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Internal Pressure Filling Joint Reinforcement Method for Concrete Structures "IPH Method"

Internal Pressure Filling Joint Reinforcement Method for Concrete Structures "IPH Method"

Patent and NETIS registered! A new technology and method that realizes the long lifespan of concrete structures.

The "IPH method" is an innovative technique that uses a spring-type injector to maintain stable pressure while employing a uniquely developed "air release" technology to replace epoxy resin within cracks, allowing for the filling of even fine cracks. It enables injection into gaps of 0.1mm or less with an internal propulsion distance of over 30cm, simultaneously achieving the recovery and reinforcement of deteriorated concrete. Additionally, it realizes a 30% cost reduction compared to conventional technologies, improving economic efficiency by 76.9% over a lifecycle of more than 30 years. 【Features】 ■ Higher pressure stability compared to traditional rubber and balloon pressurization ■ Precise control of flow rate at low pressure, maintaining consistency ■ Viscosity that penetrates to the ends of fine cracks ■ Significantly contributes to aging countermeasures and longevity of concrete structures ■ Low noise, no vibration, and dust-free * Distributors in the Tokai and San'in regions * For more details, please feel free to contact us.

  • Rust Inhibitor
  • Reinforcement and repair materials
  • Renovation and repair methods

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Pile Foundation Reinforcement Method "Σ-i (Sigma-I)"

Pile Foundation Reinforcement Method "Σ-i (Sigma-I)"

Advanced piles protect buildings. We have consolidated all the necessary elements for steel pipe piles.

"Σ-i (Sigma-I)" is a pile-type ground reinforcement method that involves inserting a pile equipped with four cutting blades and spiral wings into the ground while rotating it. This method consolidates various elements necessary for ground reinforcement, including high pile performance, reliability and safety in construction, and consideration for the environment and neighboring areas. Furthermore, by improving the structure of the tip wings, it has successfully achieved a balance between pile performance and cost reduction. 【Features】 ■ Reliable bearing capacity ■ Development of a new type of tip wing ■ Consistent management system ■ Consideration for the environment ■ Compatible with various ground conditions *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method

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