Foundation Method Product List and Ranking from 35 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.

Foundation 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. エルニード協会 Kagawa//Other construction industries
  2. null/null
  3. E&Dテクノデザイン Aichi//Construction Consultant
  4. 4 新品川商事 Osaka//Building materials, supplies and fixtures manufacturers
  5. 5 太田ジオリサーチ Hyogo//Construction Consultant
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Foundation 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. Super Rappuru Basic Construction Method (El Nido Method) Technical Documentation エルニード協会
  2. Simple Fabric Foundation Method "Spike Frame Method"
  3. [NETIS Registration] Super Wrap L Elneed Method エルニード協会
  4. 4 [NETIS Registration] Ground Improvement Work Super Rappu Elniido Method エルニード協会
  5. 5 Simple foundation method for fences, protective barriers, and signboards: 'Sleeve Pile'

Foundation Method Product List

16~30 item / All 138 items

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Liquefaction countermeasure method "TNF Hybrid Method"

Liquefaction countermeasure method "TNF Hybrid Method"

Contributes to CO2 reduction! Safe and secure liquefaction countermeasure methods can be implemented at low cost.

The "TNF Hybrid Method" is a safe and reliable liquefaction countermeasure construction method that can be implemented at a low cost. After the primary improvement construction of the TNF method, log piles are driven into the liquefaction layer. This driving process densifies the loose sandy ground (increasing the N value). 【Features】 ○ Log pile driving ○ Contributes to CO2 reduction through carbon storage effects from the use of wood ○ Patent number: No. 5494880 For more details, please contact us or download the catalog.

  • Ground foundation construction method

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[WIB Construction Method Case Study] Vibration Control in Precision Machining Factory

[WIB Construction Method Case Study] Vibration Control in Precision Machining Factory

Designed and constructed WIB work directly beneath the newly built factory! A case where the environment became suitable for the normal operation of precision machining equipment.

At Maetani Architectural Office located in Osaka Prefecture, vibrations from demolition and transportation activities of a nearby metal recycling company were affecting the operation of precision machining equipment. Therefore, during the expansion of the factory, the 'WIB method' was adopted as a vibration countermeasure, and a design targeting micro-vibrations was implemented. We investigated the impact of vibrations on the existing factory's precision machining equipment and based on this data, designed and constructed directly beneath the new factory. As a result, resonant vibrations in the range of 10 to 16 Hz were reduced by 6 to 14 dB (to 1/5 to 1/2 of the original vibrations), creating an environment suitable for the normal operation of precision machining equipment. 【Case Overview】 ■ Construction Location: Osaka Prefecture ■ Client: Maetani Architectural Office Co., Ltd. ■ Vibration Source: Demolition work vibrations ■ Preservation Target: Precision machining factory ■ Countermeasure Method: Plate-type WIB method (honeycomb cell type) ■ Construction Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Medical Facilities

[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Medical Facilities

Achieved a reduction of 6 to 10 dB in outstanding vibrations, meeting the vibration reduction target! Construction case of the plate-type WIB (honeycomb cell type).

At Mitsui Home in Chiba Prefecture, there were concerns about the impact of vibrations on work within a medical facility being constructed along a road frequently used by large vehicles. To address this, the 'WIB method' was implemented directly beneath the medical facility and the adjacent pharmacy. Using evaluation criteria for micro-vibrations aimed at precision equipment, a vibration reduction target was set. As a result, dominant vibrations in the 10-20Hz range were reduced by 6-10dB, achieving the vibration reduction target. [Case Summary] - Construction Location: Chiba Prefecture - Client: Mitsui Home Co., Ltd. - Vibration Source: Road traffic vibrations - Preservation Target: Medical facility - Countermeasure: Plate-type WIB method (honeycomb cell type) - Construction Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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【WIB Method Construction Case】Vibration Control at Construction Sites

【WIB Method Construction Case】Vibration Control at Construction Sites

Compare the vibration levels of areas without countermeasures and areas with WIB countermeasures! Confirmed a reduction of more than 6dB in both horizontal and vertical directions.

At Daiho Construction in Fukushima Prefecture, there were concerns about the impact of construction vibrations from the government building on surrounding residences. In response, the 'WIB method' was implemented around the government building. After the measures were taken, vibration measurements were conducted to investigate the impact of construction work on the surrounding area. A comparison of vibration levels between untreated areas and those treated with the WIB method showed a reduction of over 6dB in both horizontal and vertical directions. The vibrations were halved. 【Case Overview】 ■ Location: Fukushima Prefecture ■ Client: Daiho Construction Co., Ltd. ■ Vibration Source: Construction work vibrations ■ Preservation Target: Residences around the government building ■ Countermeasure: Wall-type WIB method (screen type) ■ Installation Position: Vibration propagation path *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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[WIB Construction Method Case Study] Vibration Control in Steel Manufacturing Plant

[WIB Construction Method Case Study] Vibration Control in Steel Manufacturing Plant

In the reconstruction of the cafeteria building, measures were implemented directly beneath the structure! A case was confirmed where vibration reduction of 8 to 11 dB was achieved.

At Ishiguro Construction in Toyama Prefecture, road traffic vibrations from the surrounding roads of the steel manufacturing facility and operational vibrations from the truck scale within the facility were propagating to the cafeteria building on the same site, causing vibration issues. Therefore, during the reconstruction of the cafeteria building, the 'WIB method' was implemented directly beneath the building. Vibration measurements conducted before and after the countermeasures confirmed that vertical vibrations within the cafeteria building were reduced by 8 to 11 dB. [Case Summary] ■ Location: Toyama Prefecture ■ Client: Ishiguro Construction Co., Ltd. ■ Vibration Sources: Road traffic vibrations, operational vibrations within the facility ■ Protected Target: Cafeteria building within the steel manufacturing facility ■ Countermeasure Work: Plate-type WIB (honeycomb cell type) ■ Installation Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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[WIB Construction Method Case Study] Traffic Vibration Mitigation for Existing Roads

[WIB Construction Method Case Study] Traffic Vibration Mitigation for Existing Roads

Confirmed an average vibration reduction of 7dB and a maximum of 13dB at vibration level Lmax! Comfort has been improved!

In Kanagawa Prefecture, traffic vibrations caused by large vehicles passing through the roads have been affecting the living environment along the routes, leading to complaints from residents. As a response, road renovation work was carried out, and the 'WIB method' was implemented directly beneath the road. Vibration measurements were conducted before and after the countermeasures. When comparing the vibrations at the boundary between public and private properties of four residential buildings along the road before and after the measures, an average reduction of 7 dB and a maximum reduction of 13 dB in the vertical vibration level Lmax was confirmed, resulting in improved livability. [Case Summary] ■ Location: Kanagawa Prefecture ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Several residential buildings along the road ■ Countermeasure Method: Plate-type WIB (honeycomb cell type) ■ Installation Position: Directly beneath the vibration source *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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[WIB Construction Method Case Study] Road Traffic Vibration Mitigation for Detached Houses Near a Logistics Center

[WIB Construction Method Case Study] Road Traffic Vibration Mitigation for Detached Houses Near a Logistics Center

The results showed a damping effect that exceeded expectations! It has become a foundation that can be comfortably and safely lived on in the future!

The detached houses in Okayama Prefecture are close to a logistics center, and the front road sees a large number of heavy vehicles passing frequently 24 hours a day, raising concerns that these traffic vibrations could affect the living environment of the newly built houses. The 'WIB method' was implemented directly beneath the detached houses. This achieved an average vibration reduction of 5dB (about 55% of the original vibration), resulting in a reduction effect that exceeded expectations within a limited budget. Additionally, the front road is planned to be widened in the future, and its impact has been considered from this stage, ensuring that the ground remains comfortable and safe for living in the future. [Case Overview] ■ Location: Okayama Prefecture ■ Client: Sanyu Soil Engineering Co., Ltd. ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Detached houses near the logistics center ■ Countermeasure: Plate-type WIB method (honeycomb cell type) ■ Installation Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways H29.2-3

[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways H29.2-3

Keep the vibration level below 60dB! To ensure greater vibration reduction, measures will be implemented directly beneath unused land!

A portion of a residential development site in Saitama Prefecture faces a railway, raising concerns about the impact on the living environment after the construction of homes. Therefore, the "WIB method" was implemented directly beneath the residences. Additionally, to ensure greater vibration reduction, countermeasures were also installed directly beneath the unused land. Vibration measurements were conducted before and after the countermeasures, resulting in a reduction of dominant vibrations in the 10-20Hz range by 10-14dB (to 1/5 to 1/3 of the original vibrations), keeping the vibration level below 60dB. [Case Overview] ■ Location: Saitama Prefecture ■ Client: Housing manufacturer ■ Vibration source: Railway vibrations ■ Preservation target: Residential buildings along the railway (a total of 4 buildings + unused land) ■ Countermeasures: Plate-type WIB method (directly beneath residences) and wall-type WIB method (directly beneath unused land) honeycomb cell type ■ Installation position: Directly beneath the receiving side (beneath residences) and along the propagation path (beneath unused land) *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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[WIB Construction Method Case Study] Railway Vibration Mitigation in Residential Development

[WIB Construction Method Case Study] Railway Vibration Mitigation in Residential Development

Evaluate the vibration levels for each type of train! Confirmed an average reduction of 6dB in the horizontal direction and 5dB in the vertical direction!

Vibrations from trains passing near the residential development site in Kanagawa Prefecture (currently Fujisawa SST) raised concerns about their impact on the living environment after the construction of the houses. In response, the 'WIB method' was implemented directly beneath each house. Vibration measurements on the ground were conducted before and after the countermeasures. When evaluating the vibration levels for each type of train, an average reduction of 6 dB in the horizontal direction and 5 dB in the vertical direction was confirmed. [Case Overview] ■ Location: Kanagawa Prefecture ■ Client: Ando & Associates Co., Ltd. ■ Vibration Source: Railway vibrations ■ Preservation Target: Residential houses along the railway (total of 11 buildings) ■ Countermeasure Work: Plate-type WIB method (honeycomb cell type) ■ Construction Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, July 2014, Tokyo

[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, July 2014, Tokyo

Confirmed a vibration reduction of 4 to 5 dB! An example of measures taken directly beneath a house during its reconstruction!

In residential areas of Tokyo, vertical vibrations caused by passing trains were affecting the living environment. Therefore, during the reconstruction of the housing, the 'WIB method' was implemented directly beneath the residences. Vibration measurements on the ground were conducted before and after the countermeasures. As a result, a reduction of 4 to 5 dB was confirmed. 【Case Summary】 ■ Location: Tokyo ■ Client: Mitsui Home Co., Ltd. ■ Vibration Source: Railway vibration ■ Preservation Target: Houses along the railway ■ Countermeasure Method: Plate-type WIB (honeycomb cell type) ■ Installation Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

  • Ground foundation construction method
  • Ground improvement
  • Ground improvement materials

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Ground Reinforcement Soil Nailing Method / High-Specification Nailing Method

Ground Reinforcement Soil Nailing Method / High-Specification Nailing Method

You can choose a surface treatment method that corresponds to the construction purpose and surrounding environment! We will introduce our ground reinforcement soil engineering methods.

We would like to introduce the "Soil Nailing Method" and "High-Spec Nailing Method" of San Shin Construction Industry's ground reinforcement soil engineering techniques. The Soil Nailing Method is a technology that has developed as a design approach suited to the realities of our country, with over 570 projects and a construction area exceeding 260,000 m² in Japan to date. Additionally, the High-Spec Nailing Method is a ground reinforcement soil engineering technique that reliably creates reinforcement materials with significant resistance within the ground by using a core material equipped with a bag-type reinforcement (HSN packer). 【Features of the Soil Nailing Method】 ■ Efficiently constructs stable retaining walls (earth pressure resisting structures) ■ Allows for reverse construction, enabling safer operations ■ High adaptability to deformation and excellent seismic performance ■ Capable of adjusting reinforcement material placement in response to changes in ground conditions during construction ■ Generates minimal noise and vibration during construction, making it easy to work in narrow spaces and steep slopes ■ Applicable as a reinforcement method for existing structures *For more details, please refer to the PDF document or feel free to contact us.

  • Reinforced earth wall
  • Civil Engineering Method

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Basic construction method "EJ Void Base"

Basic construction method "EJ Void Base"

Integration of the floor slab, foundation beams, and foundation! A flat foundation method with extremely high rigidity.

The "EJ Boyd Base Method" is fundamentally a flat foundation method that integrates the floor slab, foundation beams, and foundation into one system. It features a robust double slab that serves as both foundation beams and slabs, providing not only structural safety but also economic benefits due to ease of construction and shorter construction periods. This method particularly excels in areas that require deep piles. By utilizing EPS (expanded polystyrene), it significantly reduces the self-weight of the foundation, thereby minimizing the load on the ground. 【Features】 ■ A structure that integrates foundation beams, slabs, and foundations ■ Extremely high rigidity flat foundation structure ■ No deflection of floors in factories and warehouses ■ Reduced likelihood of cracks due to ground subsidence ■ EPS serves as formwork, eliminating the need for internal formwork For more details, please refer to the catalog or feel free to contact us.

  • Foundation construction

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Pin Foundation Method: Example of construction in areas inaccessible to heavy machinery.

Pin Foundation Method: Example of construction in areas inaccessible to heavy machinery.

Simple foundation construction method for NETIS registration! Introducing examples of construction in areas where heavy machinery cannot enter.

Here is an example of the pin foundation method being implemented in a location inaccessible to heavy machinery. The materials used in this method are only anchor blocks and multiple pins. Both are lightweight, allowing for transportation to be done entirely by human power. Additionally, construction can be easily carried out using handheld electric tools, making it simple to install the foundation. 【Example】 ■ Sail Column Forest Botanical Garden (Fukuoka Prefecture) ■ Structure: 3.0m x 4.0m ■ Materials Used ・ Railing: Ipe wood ・ Floorboard: Ipe wood ・ Structural Material: FRP ■ Foundation Type: DP-S 【Other Examples】 ■ Nakagawa Town Andoku, Seta no Mizo (Fukuoka Prefecture) ■ Structure: Effective Width 2.0m Post Pitch 2.5m 【Materials Used】   Railing … Cedar wood   Floorboard … Cedar wood   Structural Material … Aluminum alloy 【Foundation Type】   DP-M For more details, please refer to the catalog or feel free to contact us.

  • Civil Engineering Method
  • Ground foundation construction method
  • others

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【Pin Foundation Construction Example】A place with important historical sites and valuable trees.

【Pin Foundation Construction Example】A place with important historical sites and valuable trees.

Simple foundation construction method for NETIS registration! Introducing examples of construction in locations with important historical sites and valuable trees.

Here are examples of the pin foundation method used in locations with important historical sites and significant trees. This method involves driving small-diameter pins through a stabilization block, eliminating the need for excavation of the ground surface. It is an effective foundation method when you want to protect important historical sites as much as possible or when you want to avoid damaging the roots of significant trees. 【Example 1】 ■ Nationally Designated Historic Site: Ikebene Temple Ruins (Kumamoto Prefecture) ■ Structure: Effective width 1.5m, column pitch 2.5–3.8m ■ Materials Used: ・Handrail: Ipe wood, recycled wood, aluminum alloy ・Flooring: Ipe wood ・Structural materials: FRP ■ Foundation Type: DP-75, SP 【Example 2】 ■ Historical Park: Maru Chijo ■ Structure: Effective width 1.5m, column pitch 2.0m ■ Materials Used:  Handrail, flooring, structural materials: Cedar wood ■ Foundation Type: DP-M 【Example 3】 ■ Amagafubaru Rural Park ■ Structure: Effective width 1.8m, column pitch 2.5m ■ Materials Used:  Handrail: Ipe wood, Chatoba wood  Flooring: Ipe wood  Structural materials: Aluminum alloy, Angelim wood, Ipe wood ■ Foundation Type: DP-M For more details, please refer to the catalog or feel free to contact us.

  • Civil Engineering Method
  • Ground foundation construction method
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【Pin Foundation Construction Example】A place where water does not drain.

【Pin Foundation Construction Example】A place where water does not drain.

Simple foundation construction method for NETIS registration! Here are examples of construction in areas where water cannot be drained.

A place where water cannot be drained We will introduce examples of the pin foundation method. In conventional methods, foundation work could not be done without draining water from wetlands or lakes, but with the pin foundation method, underwater construction can be carried out by divers in the existing state. 【Case Study】 ■ Chigoike Park (Miyazaki Prefecture) ■ Structure: Effective width 2.5m, pillar pitch 2.0m ■ Materials Used - Railing: Aluminum, cedar - Floorboard: Cedar - Structural materials: Aluminum alloy, greenheart wood ■ Foundation Type: DP-100 *For more details, please refer to the catalog or feel free to contact us.

  • Civil Engineering Method
  • Ground foundation construction method
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