Ground improvement method Product List and Ranking from 42 Manufacturers, Suppliers and Companies

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

Ground improvement method Manufacturer, Suppliers and Company Rankings

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

  1. エルフ 本社・高松営業所 Kagawa//General contractors and subcontractors
  2. エルニード協会 Kagawa//Other construction industries
  3. Taiyo Kisokogyo Co.,Ltd. Aichi//General contractors and subcontractors
  4. 4 本久 Nagano//Building materials, supplies and fixtures manufacturers
  5. 5 愛知ベース工業 Aichi//Service Industry
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Ground improvement method Product ranking

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

  1. Introduction to the ground improvement method "Elmad S Method" エルフ 本社・高松営業所
  2. Super Rappuru Erunido Construction Method Building Technology Performance Certificate エルニード協会
  3. High Grip Grout Method Taiyo Kisokogyo Co.,Ltd.
  4. 4 Soil Improvement Method "Solid Cube Method" 本久
  5. 5 Ground improvement method for supporting residential buildings with precast concrete piles. アンドーパイル工法協会

Ground improvement method Product List

31~45 item / All 80 items

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Ground improvement / Construction of large-diameter cylindrical improvement bodies using the 'SUPERJET method'

Ground improvement / Construction of large-diameter cylindrical improvement bodies using the 'SUPERJET method'

Create large-diameter cylindrical improved bodies. Four types can be set according to construction purposes and conditions, with maximum effective diameters of Ø2.5m, Ø3.5m, Ø5.0m, and Ø6.0m.

The SUPERJET method involves cutting the ground by horizontally injecting ultra-high-pressure solidifying material accompanied by air from a rotating double-pipe rod, while simultaneously discharging slime to the surface and creating large-diameter cylindrical improvement bodies. 【Applications】 ● Improvement of the base during excavation and pre-placed underground beams ● Prevention of subsidence in newly constructed roads ● Shield launch and arrival protection ● Reinforcement of tunnels ● Strengthening of water-stopping in gaps of retaining walls ● Liquefaction countermeasures 【Features】 ● Capable of accommodating a wide range of soil types. Four types can be set with maximum effective diameters of Ø2.5m, Ø3.5m, Ø5.0m, and Ø6.0m to meet construction purposes and conditions. ● Excellent adhesion to retaining walls and structures. ● Achieves high-speed construction by utilizing powerful energy. ● Uses cement-based solidifying materials, providing excellent durability. ● By cutting the same location twice with one rotation, it allows for good mixing and stirring, resulting in high-quality improvement bodies.

  • Ground improvement

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Columnar Ground Improvement "SST Method"

Columnar Ground Improvement "SST Method"

The columnar ground improvement technology "SST method," which enables powerful compaction in the horizontal direction, achieves overwhelming high strength, high load-bearing capacity, and cost reduction.

The SST method is based on the principle of "eliminating voids and water between soil particles to increase density and strength." Unlike conventional in-situ mixing methods, it involves excavating soil and discharging it above ground, where solidifying agents and additional sand are mixed to "combine particles of different diameters." This improved soil is then filled into the excavation hole while being "compressed and compacted with strong force" using a newly developed auger, which binds soil particles together with needle-like crystals of the solidifying agent to construct a robust column. Since the construction is visually monitored on-site, it ensures a uniform and continuous high quality. Additionally, the method allows for powerful compaction not only in the vertical direction but also horizontally, enabling the construction of columns that exhibit high strength and bearing capacity of 2,400 kN/m² as per design standards. Furthermore, the surrounding ground is also compacted strongly, significantly enhancing the overall bearing capacity of the foundation. As a result, the number of columns can be reduced, and since very little excavated soil is generated, the use of large construction machinery, water, and electricity is minimized, greatly improving the applicability and workability on-site and reducing costs. Moreover, due to the immediate development of considerable strength from compaction, the curing period for the solidifying agent is almost unnecessary, leading to a shortened construction period.

  • Ground foundation construction method

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[Information] Liquefaction countermeasures using the SST method

[Information] Liquefaction countermeasures using the SST method

We introduce the causes of liquefaction, SST liquefaction countermeasures, and physical principles!

This document introduces liquefaction countermeasures using the SST method. Research and development of countermeasures for liquefaction has a relatively short history, beginning at the national level after the Niigata earthquake in 1964, which caused the collapse of buildings due to liquefaction. By converting the numerous pieces of information obtained from the liquefaction damage during the Great East Japan Earthquake on March 11 into empirical values, we believe that it is possible to select liquefaction countermeasure methods that consider "cost-effectiveness." This document was created to introduce liquefaction countermeasures using the SST method. [Contents (partial)] ■ Introduction ■ Liquefaction phenomenon ■ Causes of liquefaction ■ Problems caused by liquefaction ■ Soil layers at risk of liquefaction *For more details, please refer to the PDF document or feel free to contact us.

  • others

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Why not update the water pipes without stopping the road?

Why not update the water pipes without stopping the road?

Minimizing both traffic congestion and noise. A next-generation water pipe renewal method that connects to the future.

When it becomes necessary to update water pipes on a busy road, concerns about traffic congestion, noise, and vibrations due to construction arise. The SDF method involves inserting a new **flexible stainless steel pipe** into the aging water pipes without extensive excavation work. This significantly shortens the construction period and minimizes the impact on nearby residents and passing vehicles. It is a construction method that protects essential water infrastructure without disrupting daily life, making it friendly to both the environment and people. For those interested in more details, please visit "Contact Us" or "Download Catalog"!

  • Civil Engineering Method

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Ground improvement work in Yamaguchi Prefecture! Super Rappu El Nido method.

Ground improvement work in Yamaguchi Prefecture! Super Rappu El Nido method.

[NETIS Registration] Achieving shortened construction periods and low costs! Capable of handling groundwater and soft ground!

We would like to introduce the excellent economic efficiency of the "Super Rappuru Elniido Construction Method." Since it is constructed using direct excavation, it reduces the processes of excess excavation, as well as the setting up and removal of formwork. Construction can be completed in a short time from excavation to site development for each location. Through numerous trial constructions in various ground conditions, we have established know-how in testing systems, mix design, construction management, and the development of mixing buckets, enabling us to create high-quality site development with minimal variation in strength. 【Features】 ■ Easy confirmation of the supporting layer ■ Shortened construction period and high-quality site development ■ Minimal surplus soil (disposal leftover amount) on site ■ Agile response to various sites ■ Capable of handling sudden rain and groundwater *For more details, please download the PDF or feel free to contact us.

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  • Ground foundation construction method

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Paper on the SKK Method

Paper on the SKK Method

Improvement of soil quality in soft excavation soil using the gap water suction method (SKK method).

The "Tajiri District Drainage Channel No. 3 Construction" is a project to construct a road tunnel with an excavation length of 134 meters in the Tajiri Takaya area of Ichikawa City, Chiba Prefecture, close to the Tokyo Metro Tozai Line. The tunnel will be built using an open-cut method with an excavation width of approximately 30 meters and a depth of about 15 meters. Due to concerns about insufficient trafficability and deteriorating construction conditions during soil removal, the project utilized the SKK method, which combines the Super Well Point (SWP) method with suction pipes to improve soil quality by extracting pore water and underground air from the soft ground, thereby addressing these issues. The "Paper on the SKK Method" reports the results of confirming the applicability of the SKK method for soil improvement through trial construction and actual construction. 【Contents】 - Overview of the SKK Method - Confirmation of soil improvement effects through on-site trial construction - Application results of the SKK Method (verification in actual construction) For more details, please contact us or download the catalog.

  • Special Construction Method

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Shallow Ground Improvement Method "STB Method/Soil Limer Method"

Shallow Ground Improvement Method "STB Method/Soil Limer Method"

Top-class industry track record in shallow ground improvement! Leave it to us.

Our company conducts shallow ground improvement using a method that involves adding and mixing cement-based and lime-based solidifying agents in situ to create improved layers with the necessary strength according to the purpose, targeting weak ground. With our extensive experience and unique technology development, we achieve safe construction that is "low-cost," "energy-efficient," and "speedy." 【Technical Scope】 ■ Improvement of roadbed, subgrade, and base ■ Improvement of temporary roads ■ Improvement of foundation ground for structures ■ Improvement of embankment stability ground ■ Improvement of coastal sludge *For more details, please download the PDF or contact us.

  • Ground foundation construction method

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Cost reduction: Ground improvement method with a shorter design length than conventional method support piles.

Cost reduction: Ground improvement method with a shorter design length than conventional method support piles.

The design length is shorter than that of conventional solid piles! Compared to other methods, it may also reduce the overall construction cost.

The Eco-GEO method is a replacement method rather than a support pile method. The weight supported by the "crushed stone reinforcement body" is distributed underground, so it does not require a solid foundation at the tip, and in many cases, the design length is shorter than that of conventional solid piles. Therefore, depending on the ground conditions, it may be possible to reduce the overall construction cost compared to other methods. 【Features】 ■ Supports the weight of the building with both the "crushed stone reinforcement body" and the "original ground" ■ Does not require a solid foundation at the tip ■ In many cases, the design length is shorter than that of conventional solid piles ■ Depending on the ground conditions, it may be possible to reduce the overall construction cost compared to other methods *For more details, please download the PDF or feel free to contact us.

  • Ground improvement

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Ground improvement method that can reduce the burden on site managers and contribute to shortening construction periods.

Ground improvement method that can reduce the burden on site managers and contribute to shortening construction periods.

Quality control is completed simultaneously with the completion of construction! There is no need to wait for the confirmation of the strength of the test pieces.

We would like to introduce our residential crushed stone ground improvement work, "Eco Geo Method." Since there is no need for a curing period, construction time can be shortened. No water is used during the construction. As the material is crushed stone, there is no need for level management of the pile heads. Additionally, there is no concern about damaging the pile heads during foundation excavation. 【Features】 ■ No curing period required ■ Can be constructed without water ■ No post-testing (test pieces) required ■ No level management of pile heads needed *For more details, please download the PDF or feel free to contact us.

  • Ground improvement

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Construction Method: "Rising Method"

Construction Method: "Rising Method"

Achieve a solid foundation for buildings.

The Rising Method is a ground improvement technique that involves placing pre-excavated soil into the excavation area and using a uniquely developed mixing bucket to mix the soil with slurry (W method) or soil with solidifying agents (D method), thereby constructing a highly homogeneous improved body of block-like consistency. 【Features】 ○ Ground conditions can be confirmed through pre-excavation ○ Mixing conditions can be investigated immediately after construction ○ Underground obstacles can be removed ○ A cubic shape allows for a 100% improvement rate For more details, please contact us or download the catalog.

  • Ground foundation construction method

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Ground Improvement Method "Rising Method ECO"

Ground Improvement Method "Rising Method ECO"

Strengthening the foundation even more! A reliable construction method that has obtained the Architectural Technical Performance Certification from the Japan Building Research Institute. Environmentally friendly with low noise and low vibration.

The "Rising Method ECO" allows for the construction of high-quality improved bodies using the newly developed "Rising Liquid." The stirring conditions are checked with a Rising Tester (resistivity measurement device). The homogeneity of the improved body for the target soil is meticulously verified through mold core testing, enhancing construction quality. Additionally, it can accommodate large-scale improvement works for civil engineering structures and more. This is a reliable method that has obtained the Architectural Technical Performance Certification from the Japan Building Comprehensive Testing Institute. 【Features】 ■ Reliable quality control ■ Enhanced stirring effect with unique technology ■ Applicable to small buildings as well as civil engineering structures ■ Compatible with a wide range of soil types ■ Confirmation of advanced ground ■ Low noise and low vibration *For more details, please refer to the PDF materials or feel free to contact us.

  • Earthworks
  • Ground improvement
  • Ground foundation construction method

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