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Construction method Product List and Ranking from 483 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

Construction method Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

  1. フルサト工業 建材開発部 Osaka//Building materials, supplies and fixtures
  2. 双和化学産業株式会社 Hyogo//others
  3. コスモシステム Tokyo//Industrial Machinery
  4. 4 富士ファーマナイト Kanagawa//Electricity, Gas and Water Industry
  5. 5 メインマーク 【全国対応】/東京・大阪・札幌・仙台・新潟・金沢・名古屋・福岡 Tokyo//Building materials, supplies and fixtures
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Construction method Product ranking

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

  1. Corner steel pipe column on-site no-welding joint method 'Column Coupler' フルサト工業 建材開発部
  2. The "Infrared Welding Machine Series" that changes plastic welding methods. コスモシステム
  3. FRP Waterproofing Polyroof PP Method Series Rooftop and Parking Lot Waterproofing Methods Edition 双和化学産業株式会社
  4. 4 Stop leaks from the valve gland! "Valve Gland Method" 富士ファーマナイト
  5. 5 Piping Method "Just Flare JF-350/JF-500" 日商テクノ

Construction method Product List

526~540 item / All 1393 items

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Formwork inner surface reinforcement method

Formwork inner surface reinforcement method

Reduction of rust suppression, surface preparation, and repair work! On-site formwork storage will become easier.

The "Formwork Inner Surface Reinforcement Method" is a technique that involves applying a special coating to the inner surface of the formwork to suppress rust during the construction period, thereby reducing the need for grinding and repair work. This method enables long-term corrosion protection and suppresses rust on the inner surface of the formwork in coastal areas with high airborne salt, during typhoons, and in the rainy season. It also makes it easier to store formwork on-site during interruptions in the construction schedule (such as Golden Week, Obon, New Year, rainy season, and typhoons). 【In such cases】 - Suppresses rust on the inner surface of the formwork in coastal areas with high airborne salt, during typhoons, and in the rainy season. - By suppressing rust that occurs during the construction period, it reduces the labor involved in repair transfers to products and cleaning of the formwork. - Allows for the production of aesthetically pleasing blocks. *For more details, please refer to the PDF document or feel free to contact us.

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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 project 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. Using a uniquely developed mixing device, it efficiently mixes and stirs the solidifying materials with the soil, creating stable, high-quality columns (columnar improved bodies). ■ Japan Building Center Foundation Construction Technology Review Certification (Building Technology)  BCJ-Review 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 using a base machine of 0.7 m³ class without the need for a three-point pile driver. It can accommodate various soil types, including clay, sandy soil, and loam, allowing for flexible responses to various road and surrounding 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 taking depth mold samples. There is no need to collect boring cores, which reduces construction time and costs. *Documents can be downloaded from the related links.

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[Construction Example] Multi-Drill Method (Equivalent to BG Method)

[Construction Example] Multi-Drill Method (Equivalent to BG Method)

We will perform cutting, removal, and backfilling suitable for the site! A case of removing PHC piles that could not be completely taken out.

Here is an introduction to a case study of underground obstacle removal conducted by our company. In Yokosuka City, Kanagawa Prefecture, we executed the work using the multi-drilling method (equivalent to BG method). We removed PHC piles that could not be extracted using the pull-out method. Upon receiving notice that extraction was impossible, we promptly began the work and successfully completed the project. 【Case Overview】 ■ Project Name: Multi-Drilling Method (Equivalent to BG Method) ■ Construction Date: May 12, 2022 ■ Location: Yokosuka City, Kanagawa Prefecture ■ Details: φ1000 GL-25m *For more details, please download the PDF from the related link or contact us.

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[Construction Example] Multi Drill SR-45 (Equivalent to BG) Low Headroom Size

[Construction Example] Multi Drill SR-45 (Equivalent to BG) Low Headroom Size

Introduction to the case of underground obstacle removal conducted on April 1, 2022!

On our company website, we introduce numerous case studies of underground obstacle removal. On this page, we present the sizes for low-headroom construction using the multi-drill method (equivalent to BG method) in drawings. Our company selects tools according to the situation and carries out the construction. Please feel free to contact us if you have any requests. 【Methods for Underground Obstacle Removal】 ■ Multi-drill method (equivalent to BG method) ■ All-casing method (equivalent to BG method) *For more details, please download the PDF from the related link or contact us.

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[Construction Case Studies] Special Feature on Removed Underground Obstacles (7)

[Construction Case Studies] Special Feature on Removed Underground Obstacles (7)

Introducing actual underground obstacles! We select tools according to the situation and carry out the construction.

On our company website, we introduce case studies of underground obstacle removal. This page features Part 7 of our series on removed underground obstacles. For more details, please refer to the related links. We have included images of actual underground obstacles, so please take a look. 【Methods for Underground Obstacle Removal】 ■ Multi-Drill Method (Equivalent to BG Method) ■ All-Casing Method (Equivalent to BG Method) *For more details, please download the PDF from the related links or contact us.

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[Construction Case] New Warehouse Construction T-Column Method

[Construction Case] New Warehouse Construction T-Column Method

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

We would like to introduce a case study of ground improvement work carried out by our company. 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 different sizes. We planned and executed the work meticulously to match the building's requirements. 【Case Overview】 ■Project Name: New Warehouse Construction T-Column Method ■Construction Date: September 30, 2019 ■Location: Chigasaki City, Kanagawa Prefecture *For more details, please refer to the PDF document or feel free to contact us.

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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 pile diameters, 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.

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Dismantling Adhesive Technology Utilization: SFRC Pavement Removal Method

Dismantling Adhesive Technology Utilization: SFRC Pavement Removal Method

Even with strongly bonded SFRC pavement, it is possible to remove the pavement quietly without damaging the steel deck.

We would like to introduce the "SFRC Pavement Removal Method" using disassembly adhesive technology. While maintaining its function as an adhesive, it is possible to easily peel off the SFRC pavement by heating the steel deck above a certain temperature. There is no need to scrape it off with heavy machinery, allowing for quiet construction. Additionally, no special qualifications are required, and the procedure is simple, making it accessible for anyone to implement. 【Features】 ■ No load on the structure ■ Can be detached without damaging the steel deck ■ SFRC pavement can be removed with low noise ■ Easy disassembly ■ No special qualifications required, and the procedure is simple *For more details, please refer to the PDF document or feel free to contact us.

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