Foundation Method Product List and Ranking from 35 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 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:Oct 22, 2025~Nov 18, 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 リアス Tokyo//Construction Consultant
  5. 4 新品川商事 Osaka//Building materials, supplies and fixtures manufacturers
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Foundation Method Product ranking

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 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. Rubble Concrete Super Rubble Elneed Method エルニード協会
  4. 4 [NETIS Registration] Simple Foundation Method "Pin Foundation"
  5. 5 Ground improvement work in Okinawa Prefecture! Super Ruple El Nido method. エルニード協会

Foundation Method Product List

76~90 item / All 139 items

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[WIB Construction Method Case Study] Vibration Mitigation Measures for the Construction of New Expressways (2)

[WIB Construction Method Case Study] Vibration Mitigation Measures for the Construction of New Expressways (2)

Compared to areas without measures, the ground vibration in areas with measures is about 6dB to 7dB lower! Vibration reduced to less than half!

In Mie Prefecture, there were concerns that the construction vibrations from the new highway would propagate to nearby public facilities. Therefore, the 'WIB method' was implemented directly beneath the construction vehicle road. After the measures were taken, running tests and impact tests using a backhoe were conducted, and the vibrations at the untreated and treated locations were compared. As a result, it was confirmed that the ground vibrations at the treated locations were approximately 6dB to 7dB lower than those at the untreated locations, reducing the vibrations to less than half. 【Case Overview】 ■ Location: Mie Prefecture ■ Client: Tenox Co., Ltd. ■ Vibration Source: Construction work vibrations ■ Preservation Target: Nearby public facilities ■ Countermeasure Work: Plate-type WIB method (honeycomb cell type) ■ Construction 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] Traffic Vibration Mitigation for Existing Roads

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

Conducted driving tests with a 10-ton truck before and after the measures! We were able to achieve vibration reduction effects!

In Shizuoka Prefecture, vibration countermeasures were required for sections where complaints about vibrations had been occurring during road renovation work. As a result, the 'WIB method' was implemented directly beneath the road. Before and after the countermeasures, a driving test was conducted using a 10-ton truck. Vibration responses were measured and compared at the boundary between public and private properties along the route, on the ground within the site, and on the second floor of buildings. It was found that vibrations around the dominant frequency of 6Hz were reduced, achieving an average reduction of 10dB in the horizontal direction and 20dB in the vertical direction. [Case Summary] ■ Construction Location: Shizuoka Prefecture ■ Client: Imamura-gumi Co., Ltd. ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Several houses along the road ■ Countermeasure Method: Plate-type WIB (honeycomb cell type) ■ Construction 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 Countermeasures for Model Houses (2)

[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Model Houses (2)

Traffic vibrations transmitted from the ground have been reduced! An environment that falls below regulatory standards has been created after the measures were implemented!

In the model house along the main road in Chiba Prefecture, there were concerns about the impact of traffic vibrations on the living environment due to the proximity of a heavily trafficked main road after the model house was newly constructed. The 'WIB method' was implemented directly beneath the model house, achieving a vibration reduction level of 12dB (about 1/4 of the original vibration). This model house is planned along a heavily trafficked main road due to its appealing characteristics, but thanks to this construction, the traffic vibrations transmitted from the ground have been reduced, creating an expected quiet indoor environment suitable for the model house. [Case Overview] ■ Construction Location: Chiba Prefecture ■ Client: Tokyo Sekisui Heim Co., Ltd. ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Model house along the main road ■ Countermeasure Work: Plate-type WIB (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 Model Houses (1)

[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Model Houses (1)

Maintenance-free and semi-permanent! It creates a comfortable indoor environment without vibration transmission!

At the model house along the road in Tokyo, large vehicles pass by approximately every five minutes during the day, raising concerns about the impact of traffic vibrations on the living environment. The 'WIB method' was implemented directly beneath the model house, achieving a vibration reduction level of 10-12 dB (about 1/4 to 1/3 of the original vibration). This installation is maintenance-free and semi-permanent, ensuring that even after the model house becomes a regular residence, a comfortable indoor environment free from vibrations will be maintained. 【Case Summary】 ■ Location: Tokyo ■ Client: Mitsui Home Co., Ltd. ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Model house along the road ■ Countermeasure: 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] Railway Vibration Mitigation for Residential Buildings Along Subway Lines

[WIB Construction Method Case Study] Railway Vibration Mitigation for Residential Buildings Along Subway Lines

Support beams were also installed! We were able to keep the vibration level below 50dB!

In Tokyo, residential buildings are located close to railways that run underground, raising concerns about the impact of railway vibrations on the living environment after the construction of new homes. To address this, the 'WIB method' was implemented directly beneath the residences. Since building support was necessary, support piles were also installed. Vibration measurements were conducted before and after the implementation of the countermeasures, resulting in a reduction of vibrations by 12 to 17 dB (from 1/7 to 1/4), successfully keeping the vibration levels below 50 dB. 【Case Summary】 ■ Location: Tokyo ■ Client: Project owner ■ Vibration source: Railway vibrations ■ Preservation target: Residential buildings along the railway (underground) ■ 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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[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, January 2019, Saitama Prefecture

[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, January 2019, Saitama Prefecture

Measures were implemented directly beneath each residence from Building A to Building E! The vibration level has been reduced to below 60dB!

Some plots of a residential development in Saitama Prefecture face a railway, raising concerns about the impact on the living environment after the construction of the houses. Therefore, the 'WIB method' was implemented directly beneath each of the residential buildings from Building A to Building E. Vibration measurements were conducted before and after the countermeasures. As a result, the dominant vibration at 10Hz was reduced by 14dB (to 1/5 of the original vibration), successfully keeping the vibration level below 60dB. [Case Overview] ■ Construction Location: Saitama Prefecture ■ Client: Housing Manufacturer ■ Vibration Source: Railway Vibration ■ Preservation Target: Residential buildings along the railway (total of 5 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, September 2018, Saitama Prefecture

[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, September 2018, Saitama Prefecture

Concerns about the impact on the living environment after residential construction! Introducing examples aimed at increasing vibration reduction effects!

Some of the residential development plots in Saitama Prefecture face a railway, raising concerns about the impact on the living environment after the construction of the houses. Therefore, the 'WIB method' was implemented directly beneath the houses. In buildings D and E, where the vibration level exceeded 70dB before the measures were taken, the countermeasures were extended on the railway side to enhance the vibration reduction effect. After conducting vibration measurements before and after the measures, the dominant vibration at 10Hz was reduced by 6dB to 14dB (to 1/5 to 1/2 of the original vibration), successfully keeping the vibration level below 60dB. 【Case Summary】 ■ Location: Saitama Prefecture ■ Client: Housing manufacturer ■ Vibration source: Railway vibration ■ Preservation target: Residential buildings along the railway (total of 5 buildings) ■ Countermeasure work: Plate-type WIB (honeycomb cell type) ■ Construction position: Directly beneath the receiving side (partly on the 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] Road Traffic Vibration Mitigation for Residential Areas Along Elevated Bridges

[WIB Construction Method Case Study] Road Traffic Vibration Mitigation for Residential Areas Along Elevated Bridges

Reduced vibrations of 4Hz by about 5dB and vibrations of 12.5 to 20Hz by about 10dB! The vibrations have become such that they do not affect livability!

The planned construction site for housing in Kanagawa Prefecture was experiencing traffic vibrations transmitted from the elevated bridge and the road in front of the site. As a countermeasure, we implemented measures directly beneath the apartment building. The vibrations from the elevated bridge were predominantly at 4Hz, while those from the road in front of the site ranged from 12.5 to 20Hz. We designed the "WIB method" to address each of these vibrations. As a result, we reduced the 4Hz vibrations by approximately 5dB and the 12.5 to 20Hz vibrations by about 10dB, resulting in vibrations that did not affect livability. [Case Summary] ■ Construction Location: Kanagawa Prefecture ■ Client: Housing Manufacturer ■ Vibration Source: Road Traffic Vibration ■ Preservation Target: Apartment Building (New Construction, 3 Stories) ■ 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 Construction Method Case Study] Road Traffic Vibration Countermeasures for Residential Areas Along Roads

[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Residential Areas Along Roads

Confirmed a vibration reduction of 3-6dB on the first floor and 4-5dB on the second floor! Introducing a case where livability has improved!

In residential houses along the roads in Tokyo, vibrations from large vehicles were propagating, and vertical vibrations were affecting the living environment. Therefore, during the rebuilding of the houses, the 'WIB method' was implemented directly beneath the residences. Vibration measurements were conducted before and after the countermeasures within the buildings. As a result, a reduction of 3-6 dB on the first floor and 4-5 dB on the second floor was confirmed, improving livability. [Case Summary] ■ Location: Tokyo ■ Client: Sekisui Heim Corporation ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Houses along the road ■ 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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[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, January 2014, Saitama Prefecture

[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, January 2014, Saitama Prefecture

Railway vibrations reduced by half! A damping effect of approximately 4dB in the horizontal direction and about 6dB in the vertical direction has been confirmed!

In the vicinity of the planned construction site for a detached house (two-story lightweight steel frame) in Saitama Prefecture, trains frequently pass by, raising concerns about the impact of railway vibrations on the living environment. Therefore, the 'WIB method' was implemented directly beneath the house. Vibration measurements taken before and after the construction confirmed a reduction effect of approximately 4dB in the horizontal direction and about 6dB in the vertical direction, effectively halving the railway vibrations. 【Case Overview】 ■ Construction Location: Saitama Prefecture ■ Client: Sanyu Soil Engineering Co., Ltd. ■ Vibration Source: Railway vibrations ■ Preservation Target: Houses along the railway ■ 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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Self-supporting retaining wall "YOSAKU Method"

Self-supporting retaining wall "YOSAKU Method"

Reduce excavation volume and earthworks to shorten construction time and cut costs!

The "YOSAKU Method" is a construction technique characterized by an integrated structure of concrete walls and pile foundations to support lateral earth pressure and vertical loads. It allows for low costs and minimizes the amount of soil excavation, resulting in a highly efficient retaining wall. It is particularly effective in sloped areas or places with elevation differences. Unlike conventional methods, it does not require a foundation base, making it possible to reduce soil-related issues during excavation (such as movement, processing, and softening) as well as their impact on the surrounding area and costs. 【Features】 ■ Reduces the amount of excavated soil and earthwork, significantly decreasing the workload ■ Shortens construction time and reduces costs ■ No foundation base required ■ Reduces soil-related issues during excavation (such as movement, processing, and softening) and their impact on surrounding costs *For more details, please refer to the PDF document or feel free to contact us.

  • Retaining wall

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【Pin Foundation Construction Example】Difficult Locations for Other Foundation Methods

【Pin Foundation Construction Example】Difficult Locations for Other Foundation Methods

Simple foundation methods for NETIS registration! We will introduce examples of construction in locations where other foundation methods are difficult.

Places where other foundation methods are difficult We will introduce examples of the pin foundation method. Due to weak ground, there are sites where foundation work becomes extensive, sites where draining water from ponds or canals incurs significant costs, or sites where transporting materials is very labor-intensive. In such cases, the lightweight pin foundation method, which can be constructed manually, is optimal. Depending on the case, it is also possible to significantly reduce the cost of foundation work. 【Examples】 ■ National Okinawa Memorial Park Ocean Expo Park (Okinawa Prefecture) ■ Structure: Effective width 2.0m, column pitch 3.0m ■ Materials used - Railing: FRP - Floorboard: FRP - Structural materials: Steel, FRP ■ Foundation type: DP-75, DP-100 *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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In soft ground or places where heavy machinery cannot enter! NETIS registered simple foundation method.

In soft ground or places where heavy machinery cannot enter! NETIS registered simple foundation method.

A promenade and Yatsuhashi can be created in areas with loose ground! No heavy machinery needed, and it's gentle on the natural environment.

The "Pin Foundation" is a simple foundation construction method that provides support by driving pins at an angle through a fixed block. It is effective in foundations in areas where heavy machinery cannot easily access, such as in forests, as it does not require large excavation work on the ground surface. By increasing the embedment depth of the pins, it can also accommodate soft ground conditions such as marshy or sandy soils. 【Features】 ■ Suitable for foundations of small structures like boardwalks, Yatsuhashi bridges, and pavilions ■ No ground excavation required for heavy machinery access, making it environmentally friendly ■ Two types of construction methods available based on application ■ Registered with NETIS *You can view a catalog with numerous construction examples from the "Download" section.

  • Civil Engineering Method
  • Ground foundation construction method
  • others

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Wooden gardening for private homes, tourist spots, golf courses, amusement parks, etc.

Wooden gardening for private homes, tourist spots, golf courses, amusement parks, etc.

Proposed external spaces for your garden with preservative-treated wood! We offer design and construction tailored to various needs, such as 'decks' and 'wooden fences'.

At Sanmoku Kogyo, we propose external spaces for landscaping and gardens, providing design and construction tailored to various needs. We offer a wide range of products, including "decks" made from beautifully grained and expressive Ulin wood, which over time creates a relationship with traditional houses, and "wooden fences" featuring accentuated square timber treated with a transparent benigara finish. Our company provides "safe and secure" wooden products through high-precision processing techniques using multi-axis machining and skilled carpenters, along with over 80 years of accumulated anti-corrosion technology. 【Product Lineup】 ■ Decks ■ Wooden Fences ■ Sleepers *For more details, please refer to the PDF materials or feel free to contact us.

  • Exterior Materials

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Liquefaction countermeasure method "New Pola Hole PROTECT Method"

Liquefaction countermeasure method "New Pola Hole PROTECT Method"

Prevents lifting without damaging the manhole!

The "New Pola Hall PROTECT Method" is a liquefaction countermeasure technique that protects sewage and stormwater manholes with permeable manholes and backfills them with crushed stone. Our permeable concrete has a permeability coefficient of K=1.0 cm/sec or higher, allowing for the instantaneous collection of pore water pressure caused by liquefaction through the permeable manholes and its dispersion through crushed stone. 【Features】 ■ Effective for "rainwater infiltration" and "pressure infiltration" ■ Maintains permeability and breathability ■ Can be utilized as existing drainage ditches ■ Prevents uplift without damaging the manholes *For more details, please download the PDF or feel free to contact us.

  • Special Construction Method
  • Ground foundation construction method
  • Rainwater infiltration facilities

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