Improved Construction Method Product List and Ranking from 57 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

Improved Construction Method Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

  1. エルニード協会 Kagawa//Other construction industries
  2. エルフ 本社・高松営業所 Kagawa//General contractors and subcontractors
  3. 千代田工営 Saitama//General contractors and subcontractors
  4. 4 Taiyo Kisokogyo Co.,Ltd. Aichi//General contractors and subcontractors
  5. 5 エスエスティー協会 Chiba//Other construction industries
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Improved Construction Method Product ranking

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 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. Non-welded joint "Tsuitaro" 千代田工営
  4. 4 High Grip Grout Method Taiyo Kisokogyo Co.,Ltd.
  5. 5 Columnar Ground Improvement "SST Method" エスエスティー協会

Improved Construction Method Product List

31~45 item / All 111 items

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Rising Method

Rising Method

Obtained the Architectural Technical Performance Certification from the Japan Architecture Comprehensive Testing Institute!

The "Rising Method" is a construction technique that achieves a solid foundation for buildings. By using flat steel attached in a cross, vertical, or horizontal manner to the front of the mixing bucket, the mixing performance has been improved by loosening the soil clumps. It can accommodate not only single-family homes but also renovation work for small-scale buildings up to three stories, as well as improvement work for civil engineering structures and a wide range of soil types including sandy soil, clay, loam, and volcanic ash. 【Features】 ■ Enhanced mixing effect with unique technology ■ Reliable quality control ■ Suitable for small-scale buildings and civil engineering structures ■ Adaptable to a wide range of soil types ■ Confirmation of advanced ground ■ Low noise and low vibration *For more details, please refer to the PDF document or feel free to contact us.

  • Special Construction Method
  • Ground improvement

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Crushed stone ground improvement method "Eco Geo Method"

Crushed stone ground improvement method "Eco Geo Method"

Reinforcement of ground bearing capacity and improvement of permeability! Ground improvement with crushed stone is possible even in narrow spaces.

The "Eco-GEO Method" generates little vibration and noise, and does not produce harmful dust, allowing for construction that takes the surrounding living environment into consideration. With the "EG Casing," reliable excavation is possible, preventing wall collapse. Additionally, only minimal residual soil is generated on-site, so depending on the soil quality, zero waste disposal is possible. 【Features】 ■ Ground improvement with crushed stone is possible even in narrow spaces ■ Construction that considers the surrounding living environment ■ Prevention of wall collapse ■ Zero waste ■ No concerns about groundwater contamination *For more details, please refer to the PDF materials or feel free to contact us.

  • Special Construction Method

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Ground improvement work ☆ Deep mixing method 'T-column method' * Certification obtained

Ground improvement work ☆ Deep mixing method 'T-column method' * Certification obtained

This is a columnar improvement work of deep mixing treatment made possible by a self-developed stirring device (patent obtained) that enables high quality, low cost, and flexible responsiveness!

The T-column method is a construction technique that involves excavating the ground while injecting cement-based solidifying materials, efficiently mixing and stirring the solidifying materials with the soil using a uniquely developed mixing device, thereby constructing stable, high-quality columns (columnar improved bodies). ■ Japan Building Center Foundation Construction Technology Examination Certification (Building Technology)  BCJ - Examination Certification - 219 ■ NETIS Number KT-150083-A <Features> - Maximum column diameter of 1.60 m and maximum depth of 16 m. It is possible to construct up to the maximum column diameter with a base machine of 0.7 m³ class without using a three-point pile driver. It can accommodate various types of soil, including cohesive soil, sandy soil, and loam, allowing for flexible responses to various road and neighboring conditions. - By using a fully automated plant, the slurry production process can be managed, ensuring stable quality. - In the case of small-scale buildings, a mold core can be created by sampling with a depth mold sampler. There is no need to collect boring cores, which can reduce construction time and costs. *Documents can be downloaded from the related links.

  • Ground foundation construction method

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[Construction Example] New Warehouse Construction Using T-Column Method

[Construction Example] New Warehouse Construction Using T-Column Method

Carefully planned and constructed to match the building! Introducing examples from the construction site of a new warehouse.

We would like to introduce a case study of the ground improvement work we conducted. At the site of a new warehouse construction in Chigasaki City, Kanagawa Prefecture, we implemented our original deep mixing method and T-column method. The improvement diameters varied widely, with the largest being Φ1400mm and the smallest Φ800mm, totaling five types. We carefully planned and executed the work to match the building requirements. 【Case Overview】 ■ Project Name: Warehouse New Construction T-Column Method ■ Construction Date: September 30, 2019 ■ Location: Chigasaki City, Kanagawa Prefecture *For more details, please refer to the PDF materials or feel free to contact us.

  • Ground foundation construction method

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[Construction Case] Nihonbashi, Chuo Ward, Tokyo T-Column Method (Deep Mixing Method)

[Construction Case] Nihonbashi, Chuo Ward, Tokyo T-Column Method (Deep Mixing Method)

We will introduce a case where the T-column method was implemented in a strict and narrow area to improve φ1000.

We would like to introduce a case study of the ground improvement work we conducted. In Nihonbashi, Chuo Ward, Tokyo, we performed the T-column method (deep mixing method) using construction machine S-15. We have introduced this case with images in the related links, so please take a look. 【Case Overview】 ■ Project Name: T-column Method (Deep Mixing Method) in Nihonbashi, Chuo Ward, Tokyo ■ Construction Date: June 5, 2021 ■ Location: Nihonbashi, Chuo Ward, Tokyo *For more details, please refer to the PDF materials or feel free to contact us.

  • Ground foundation construction method

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[Construction Example] Ground Improvement using Deep Mixing Method (T-Column Method)

[Construction Example] Ground Improvement using Deep Mixing Method (T-Column Method)

Construction case of columnar improvement work at the ground with 170 piles of diameter Φ160 at 3 locations!

Here is an introduction to a case study of ground improvement work conducted by our company. In Machida City, Tokyo, the columnar improvement work for the newly created Tokiwa Ground within the Obirin Gakuen Machida Campus has begun, utilizing the original method "T-Column Method," which has obtained technical examination certification and is based on deep mixing treatment technology. This project involved columnar improvement work for the ground, special L-shaped retaining walls, and L-shaped retaining walls. 【Case Overview】 ■ Project Name: Ground Improvement using Deep Mixing Treatment (T-Column Method) ■ Construction Date: September 3, 2020 ■ Location: Tokiwa Town, Machida City, Tokyo ■ Details: Pile diameter Φ160, total of 170 piles *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method

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[Construction Case] T Column Method, Odawara City, Kanagawa Prefecture

[Construction Case] T Column Method, Odawara City, Kanagawa Prefecture

Introducing a case of ground improvement work conducted in Odawara City, Kanagawa Prefecture on September 30, 2021!

We would like to introduce a case study of ground improvement work conducted by our company. We performed our original deep mixing method, the T-column method (Construction Technology Examination Certification), on the site of a factory located in Odawara City, Kanagawa Prefecture. We have provided images along with this case study in the related links, so please take a look. 【Case Overview】 ■Project Name: T-column Method in Odawara City, Kanagawa Prefecture ■Construction Date: September 30, 2021 ■Location: Odawara City, Kanagawa Prefecture *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method

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[Construction Case] Sagamihara City T Column Method (Deep Mixing Method)

[Construction Case] Sagamihara City T Column Method (Deep Mixing Method)

Introducing a case where the T-column method (deep mixing treatment method) was implemented using construction machine S-15!

We would like to introduce a case study of the ground improvement work we conducted. In Midori Ward, Sagamihara City, Kanagawa Prefecture, we implemented our original T-column method (deep mixing method) using construction machine S-15. A total of 176 locations were completed successfully. 【Case Overview】 ■ Project Name: Sagamihara City T-Column Method (Deep Mixing Method) ■ Construction Date: October 5, 2021 ■ Location: Midori Ward, Sagamihara City, Kanagawa Prefecture ■ Details: Five types of piles with a small diameter of Φ800mm and a large diameter of Φ1300mm *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method

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[Construction Example] T-Column Method (Deep Mixing Method) in Machida City, Tokyo

[Construction Example] T-Column Method (Deep Mixing Method) in Machida City, Tokyo

Leave your foundation construction work to us! Excavation length of 9.0m, with 120 construction sites as examples.

We would like to introduce a case study of the ground improvement work we conducted. In Machida City, Tokyo, we implemented our original T-column method (deep mixing method). The excavation depth was 9.0 meters, with 120 construction locations, and a silo for the solidifying agent was installed for the work. We have provided images of this case study in the related links, so please take a look. 【Case Overview】 ■ Project Name: T-column Method (Deep Mixing Method) in Machida City, Tokyo ■ Construction Date: October 9, 2021 ■ Location: Machida City, Tokyo *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method

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Soil Improvement Method "Solid Cube Method"

Soil Improvement Method "Solid Cube Method"

Significant reduction in excavation time is possible with the minimum necessary excavation volume!

The "Solid Cube Method" is a slurry-type mechanical mixing block ground improvement method. Applicable structures include foundations for buildings and works, as well as temporary structures such as retaining walls, and the applicable ground consists of sandy soil, clayey soil, and loam. Additionally, information from various sensors attached to the bucket mixer and arm displays the bucket's movement trajectory, mixing count, and electrical resistivity value in real-time on the operator's monitor. 【Features】 ■ Efficient excavation method ■ Dedicated bucket mixer with anti-circular mixing function ■ Construction management device that visualizes the interior of the improved body ■ Specimen production using an uncured sample collector ■ Indoor mixing tests with mixed soil, etc. *For more details, please download the PDF or feel free to contact us.

  • Ground foundation construction method

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Columnar Ground Improvement Method "MRC Method"

Columnar Ground Improvement Method "MRC Method"

Compact, high-performance machines provide high-quality enhancements!

The "MRC Method" is a columnar ground improvement technique that addresses various issues that may arise during excavation work in areas affected by groundwater or where soft ground is deposited. By using compact construction machinery, it minimizes the impact on the local community while providing high-quality ground improvement. 【Features】 ■ Contribution to the community brought by compactness ■ Improvement of structural integrity brought by excellent applicability ■ Expansion of application range and utilization brought by high-performance machinery ■ Reduction of the burden on the local community brought by low costs ■ Improvement of construction safety brought by high reliability *For more details, please download the PDF or feel free to contact us.

  • Ground foundation construction method

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Ground improvement / A consistent cylindrical diameter is expected for any type of soil with the "X-JET Method."

Ground improvement / A consistent cylindrical diameter is expected for any type of soil with the "X-JET Method."

Cutting with two intersecting jets allows for excellent mixing and stirring, enabling the creation of high-quality modified bodies. It also exhibits excellent adhesion to retaining walls and structures.

The X-JET method involves cutting the ground by horizontally injecting ultra-high-pressure water mixed with air from a rotating triple-pipe rod, while simultaneously filling it with hardening material and discharging slime to the surface, thereby creating a cylindrical improved body of a certain diameter. 【Applications】 ● Improvement of the base during excavation / Pre-embedded underground beams ● Prevention of subsidence in newly constructed roads ● Shield launch and arrival protection ● Reinforcement of tunnels ● Water stop reinforcement for gaps in retaining walls ● Liquefaction countermeasures 【Features】 ● A consistent cylindrical diameter can be expected for any type of soil. ● Three types are set to accommodate construction purposes and conditions: Ø1.5m, Ø2.0m, and Ø2.5m. ● Excellent adhesion to retaining walls and structures. ● Cutting is performed with two intersecting jets, allowing for superior mixing and the creation of high-quality improved bodies. ● Using cement-based hardening materials ensures excellent durability.

  • Ground improvement
  • Tunnel construction

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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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Soil improvement method "HSS Method"

Soil improvement method "HSS Method"

Environmental conservation and recycling solutions that contribute to soil improvement and contaminated soil purification!

The "HSS Method" is a soil improvement technique that uses the soil conditioner "Doctor" to improve construction-generated soil and sediment on-site into high-quality safe soil, actively contributing to recycling and cost reduction. We propose soil improvement systems tailored to the type of soil, its intended use, location, and scale. Please feel free to contact us for more information. 【Features】 ■ High mixing ratio to accommodate a wide range of soil types ■ Reliable mixing ratio with a paddle mixer ■ Suitable for high-viscosity soil to sandy soil ■ Quality stability through a vibrating screen ■ High-precision solidifying agent supply system *For more details, please download the PDF or feel free to contact us.

  • Company:HSS
  • Price:Other
  • Special Construction Method

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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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