Construction method Product List and Ranking from 1598 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.

Construction 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. Taiyo Kisokogyo Co.,Ltd. Aichi//General contractors and subcontractors
  2. 水研 Shiga//Building materials, supplies and fixtures manufacturers
  3. null/null
  4. 4 三晃金属工業 Tokyo//General contractors and subcontractors
  5. 5 エスケー化研 Osaka//Building materials, supplies and fixtures manufacturers
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Construction 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. Install the valve without stopping the water! 'EM Continuous Water Valve Method' 水研
  2. Hybrid Concrete Reinforcement Method "Solid Remain Alpha"
  3. Support for bridge pier reinforcement nationwide: "Temporary Closure LPF Method" 日本海洋サービス 大阪支店
  4. 4 Gradient Construction Method for Residential Exterior Walls "KF Gradient Method" KFケミカル
  5. 5 Reinforcement of existing beam after hole cutting: "Redouble Method" コンステック

Construction method Product List

3946~3960 item / All 4238 items

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Super Rappu El Nido Method

Super Rappu El Nido Method

Over 3,000 construction achievements nationwide! Ground improvement that realizes shortened construction periods and cost reduction.

We would like to introduce the excellent economic efficiency of the "Super Lapple Elneed Method." Since it is constructed through direct excavation, it reduces the processes of over-excavation and the setting and removal of formwork. The construction can be completed in a short time from excavation to site development for each location, achieving cost reduction. By conducting preliminary test constructions in various ground conditions, we have established know-how in testing systems, mix planning, construction management, and the development of mixing buckets, enabling us to create high-quality development bodies with minimal variation in strength. 【Features】 ■ Easy confirmation of support layers ■ Shortened construction period and high-quality development bodies ■ Minimal excess soil on site (amount of disposal soil) ■ Agile response to various sites *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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[NETIS Registration] For sites concerned about groundwater and soft ground. Reliable construction methods.

[NETIS Registration] For sites concerned about groundwater and soft ground. Reliable construction methods.

A clear move that can be judged visually at sites with abundant groundwater and soft ground!

The "Super Rappuru Erunido Method" allows for visual and tactile confirmation of the support layer during construction, enabling accurate decision-making even in sites where construction judgments may be uncertain. It supports reliable on-site judgments without relying on estimates or experience as in the past. This leads to a reduction in construction time and stabilization of quality, while minimizing the risk of construction errors. It can also accommodate complex ground conditions, significantly reducing uncertainties on site. 【Features】 ■ Reliable confirmation of the support layer during construction ■ Completion of construction in a short period at low cost ■ Achievement of high-quality embankments ■ Flexible construction tailored to the site environment

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  • Ground foundation construction method

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【NETIS Registration】 "Defect Rate 0%" High-density ground improvement for reliable prevention of settlement

【NETIS Registration】 "Defect Rate 0%" High-density ground improvement for reliable prevention of settlement

"0% defect rate" Reliable ground improvement with high density to prevent sinking.

In response to the risk of re-softening after ground improvement, the "Super Rappu El Nido Method" ensures the stability of high-quality fill. Utilizing years of testing and construction know-how, we achieve construction quality with minimal strength variation. It can be confidently implemented not only immediately after improvement but also in projects requiring long-term ground stability. 【Features】 ■ Construction of high-strength fill ■ Improved stability after improvement ■ Zero risk of settlement after construction ■ High-precision construction management

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  • Ground foundation construction method

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[Column] The El Niño Method That Can Be Applied Even in Areas with Abundant Groundwater

[Column] The El Niño Method That Can Be Applied Even in Areas with Abundant Groundwater

Even in sites with abundant groundwater, the El Niño method can be applied.

**Challenges of Sites with High Groundwater** In construction and civil engineering sites, there are many concerns related to "groundwater," such as: - Groundwater springs up immediately upon excavation. - The groundwater level is high, preventing excavation to the required depth. - There is a risk of construction interruption or quality issues due to rainwater and other factors. - Particularly in cases where the groundwater level is high, it is not uncommon for traditional methods to be deemed "impossible to construct." **Reasons for Choosing the Elneed Method** ◎ Flexibility to handle groundwater The Elneed method incorporates an "adjusted water content ratio" in its mix design and manages the water volume within the fill using "flow values," allowing for the utilization of "sprung water and sudden rain." **Reasons for Feasibility of Construction in High Water Level Sites** - Adoption of excavation and mixing methods that suppress groundwater inflow. - Setting a higher elevation for the initial finish, then shaving down to the required height the next day to avoid the effects of water level. - Establishing a reliable construction system through quality assurance and N-value determination during the design phase. **Conclusion** Do not give up on a site just because the water level is high. With the Elneed method, construction is possible even under conditions of groundwater volume, groundwater level, and during the rainy season.

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  • Ground foundation construction method

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[Column] What is the Elneed method that reduces quality, cost, and environmental impact?

[Column] What is the Elneed method that reduces quality, cost, and environmental impact?

What is the Elneed method that reduces quality, cost, and environmental impact?

In ground improvement work on site, we will explain the differences between other methods and the "El Nido Method" from two perspectives this time. ▼Difference 1: Soil Disposal and Environmental Consideration▼ For example, in columnar improvement, it is common for the excavated soil to be discarded. As a result, the leftover soil is often treated as industrial waste, leading to increased disposal costs and greater environmental impact. On the other hand, the El Nido Method reuses the soil generated on site during excavation. The amount of leftover soil is about 35% for cohesive soil, and nearly zero for sandy ground. ▼Difference 2: Quality Control that Allows for "Direct Achievement" of Target Strength▼ In many ground improvement methods, there tends to be a significant difference between pre-mixing tests and actual on-site strength, necessitating a large safety factor due to variability in strength. For example, in conventional methods, the ratio of [on-site test specimen strength / pre-mixing test strength] is typically around 0.2 to 0.8. (Note: The "=" here indicates a range, so please recognize it as "nearly equal.") However, with the El Nido Method, we achieve [test specimen strength / mixing test strength ≧ 1.0]. In other words, the strength obtained on site is equal to or greater than that from the pre-laboratory tests.

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  • Ground foundation construction method

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[Column] Visible Support Layers! What Excavation Methods Enhance Ground Reliability?

[Column] Visible Support Layers! What Excavation Methods Enhance Ground Reliability?

Visible support layers! What excavation methods enhance the reliability of the ground?

I am anxious about whether we are truly reaching the "support layer" that serves as the foundation of the building. In other methods, the conditions underground can only be estimated from machine readings, making it difficult to determine their accuracy. The Super Rappu Elneed method allows us to "directly see and touch" the most important part of ground improvement. ⬛︎ The challenge of "invisibility" faced by other methods While other methods use specialized large machines to dig underground, the Super Rappu Elneed method employs the most common equipment on site, the "backhoe." Instead of estimating "numbers" like torque values or ammeter readings, we verify with the technician's "eyes." This simple and direct approach creates an overwhelming "certainty" that other methods lack. ⬛︎ "Visible reassurance" achieves optimization of quality and cost The advantage of being able to "visualize" the support layer goes beyond mere peace of mind. - Proof of overwhelming quality - Cost optimization - Prevention of troubles before they occur Because the work underground is invisible, we ensure reliable construction.

  • Ground foundation construction method

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[Dyed Q Technology Construction Case] Nitto Zinc Co., Ltd.

[Dyed Q Technology Construction Case] Nitto Zinc Co., Ltd.

Revitalize the strength and appearance of aging factories with the Dye Q Technology reinforcement method!

We would like to introduce a case where the Dye Q Technology reinforcement method was applied at Nitto Zinc Co., Ltd. In the company's manufacturing plant, the steel structures and roofing materials had deteriorated over many years of use, with rust and corrosion becoming prominent. Since dismantling or new construction would require high costs and a long construction period, they were looking for a method to repair the facility in a short time while keeping the plant operational. Therefore, they adopted the Dye Q Technology reinforcement method, which allowed them to permeate new materials into the deteriorated areas and restore strength in a short period. Because the work could be carried out while the plant was operational, they were able to minimize the impact on production. [Challenges] - The steel structures and roofing materials had deteriorated over many years of use, with rust and corrosion becoming prominent. - In particular, the external stairs had fallen below safety standards in terms of strength. - There was a need to ensure the safety of employees. - They were looking for a method to repair the facility in a short time while keeping the plant operational. *For more details, please refer to the PDF document or feel free to contact us.*

  • Renovation and repair methods

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Innovative construction method! HDD method (Horizontal Directional Drilling) TerraJet

Innovative construction method! HDD method (Horizontal Directional Drilling) TerraJet

Piping and wiring burial system! Avoid obstacles with vertical and horizontal curves! Reduce total costs! "Challenging the creation of lifelines that run through the Earth and underground!"

With the acceleration and advancement of urban functions, the development of various lifelines such as water supply and drainage, electricity, gas, and communications is becoming increasingly important. The HDD method (Horizontal Directional Drilling) / TerraJet is a construction method for burying pipes and cables without excavation, which reduces traffic disruption and soil disposal issues. It allows for clean and highly safe construction by detecting the construction position from above ground and pushing in an arc direction both vertically and horizontally. Additionally, it eliminates the need for traditional shaft construction, allowing for simpler shafts, which shortens construction time and reduces total costs. In recent years, disasters have become more severe, and as lifelines age, the renewal and seismic reinforcement of aging pipes are being promoted from the perspective of improving disaster resilience. The HDD method (Horizontal Directional Drilling) / TerraJet is gaining attention as a method for burying water supply and drainage pipes, gas pipes, power cables, and communication lines underground. 【Features】 - Flexibility and adaptability - Shortened construction period - Economical low cost - Harmony with the natural environment - Safety For more details, please contact us or download the catalog.

  • Water Supply Facilities
  • Sewerage facilities
  • Agricultural civil engineering works

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ASE-MS method

ASE-MS method

Heavy metals can be reduced to below soil environmental standards! Strength improvement and handling improvement are possible.

The "ASE-MS method" is a technique that allows for the simultaneous addition of liquid along with powder. It complies with soil environmental standards for heavy metals. It can improve strength and handling, and convert insoluble and difficult-to-dissolve compounds through chemical reactions. An astonishing four-component mixture. Chelating agents and pH adjustments are added while managing flow rates. [Examples (excerpt)] ■ Nagano Prefecture Target: Arsenic 0.024 mg/L ■ Miyagi Prefecture Target: Arsenic 0.022 mg/L ■ Tokyo Metropolis Target: Arsenic 0.97 mg/L ■ Tokyo Metropolis Target: Arsenic 0.017 mg/L ■ Niigata Prefecture Target: Mercury 0.0013 mg/L *For more details, please download the PDF or feel free to contact us.

  • Soil improvement material
  • Ground improvement

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ASE-OS method

ASE-OS method

Transform into reusable soil for various applications as fill material and backfill!

The "ASE-OS method" is a technique designed to address oil-contaminated soil, sludge, and mud caused by accidents or the aging of equipment. By mixing "Oil Shut (OS)" at 3-6% with oil-contaminated soil and ensuring a curing period of several hours, the removal of oil films and odors can be confirmed. Additionally, by controlling the amount of additive, it can adapt to various types of oil and is effective even in cases of high concentration contamination. 【Features】 ■ Immediately purifies oil content and removes oil films and odors ■ Improves strength and handling ■ No need for hexavalent chromium leaching tests *For more details, please download the PDF or feel free to contact us.

  • Soil improvement material
  • Ground improvement

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Off-site construction method for air conditioning equipment "MOVER"

Off-site construction method for air conditioning equipment "MOVER"

Solving the building equipment seismic design and construction guideline a + b < 250 by installing the independently developed Catalyzer!

"Muva" is an off-site construction method for air conditioning equipment designed for ceiling cassette-type package air conditioners. Since the position of the main unit can be adjusted after hanging the equipment, there is no need for re-hanging even if the ceiling opening is misaligned. The adjustment range is ±250mm in the front, back, left, and right. Please feel free to contact us if you have any requests. 【Product Composition】 ■ Main Beams: 2 ■ Sub Beams: 2 ■ Equalizers: 4 ■ Fixing Bolts: 8 *For more details, please download the PDF or feel free to contact us.

  • Earthquake-resistant construction method

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RAKUYU-Z Method

RAKUYU-Z Method

Water replacement measures for the maintenance management era! Please feel free to consult us regarding any water replacement matters.

We would like to introduce the "RAKUYU-Z Method," which is promoted and advertised by our association. By using this method for water replacement, we can create an environment where the construction site remains completely dry (or at a water level suitable for construction) for a certain period without implementing drainage restrictions for local residents. This ensures safety and hygiene on-site, enhances the efficiency of the main construction work, and makes it easier to secure construction quality. Additionally, our association holds technical guidance, training sessions, and workshops related to the method. 【Features】 ■ Resolves interruptions in construction due to clogging ■ Numerous suction vehicles are deployed, moving away from piston transport ■ Suitable even in locations where submersible pumps cannot be installed inside manholes ■ Minimal impact on surrounding traffic for water replacement ■ Labor-saving through automatic pump control and patrol monitoring, with rapid response in case of accidents ■ Smooth installation and removal even for large-capacity water replacements *For more details, please download the PDF or feel free to contact us.

  • Sewerage facilities
  • Drainage and water removal

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Dynamic Resin Strong Guard P Method

Dynamic Resin Strong Guard P Method

A lineup of "low-temperature" products that can be installed at temperatures ranging from -5℃ to 15℃ is also available!

The "Dynamic Resin Strong Guard P Method" is a concrete spalling prevention method that complies with the "East Japan, Central Japan, and West Japan Expressway Company Structural Construction Management Guidelines for Spalling Prevention." The process includes substrate treatment, primer application, adhesive application (first coat), fiber sheet installation, adhesive application (top coat), and finish material application. Please feel free to contact us when you need our services. 【Structure】 ■ Finish material "JDB-95U" ■ Adhesive "JDB-790E" ■ Continuous fiber sheet "SCM 1810A" ■ Adhesive "JDB-790E" ■ Primer "JDB-EX" ■ Concrete surface *For more details, please download the PDF or feel free to contact us.

  • Civil Engineering Method

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Dynamic Resin Strong Guard TNK Method

Dynamic Resin Strong Guard TNK Method

Flame-retardant epoxy resin-based adhesive can be used to ensure flame resistance, self-extinguishing properties, and safety of generated gases!

The "Dynamic Resin Strong Guard TNK Method" is a construction method designed to prevent spalling in tunnels (small piece spalling prevention) and bridge concrete spalling. The applicable temperature range for spalling prevention performance is -30 to +50°C (suitable for cold regions). By using a special continuous fiber sheet, it maintains high push-out performance. Additionally, by using a flame-retardant epoxy resin-based adhesive, it ensures fire resistance, self-extinguishing properties, and safety of generated gases. 【Features】 ■ Applicable for spalling prevention in tunnels (small piece spalling prevention) and bridge concrete. ■ Spalling prevention performance applicable temperature range: -30 to +50°C (suitable for cold regions). ■ High push-out performance can be maintained by using a special continuous fiber sheet. ■ Weather-resistant inorganic paint is adopted for the finishing coat. *For more details, please download the PDF or feel free to contact us.

  • Civil Engineering Method

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Bond VM Netless Method

Bond VM Netless Method

Introducing a peeling prevention method that can be implemented without using nets in sub-zero temperatures!

The "Bond VM Netless Method" is a construction technique that allows for anti-peeling measures simply by applying a tough urethane resin. By ensuring a uniform film thickness when applied to complexly shaped concrete structures, it reliably demonstrates anti-peeling effectiveness. Furthermore, this method can be executed even in winter, when construction is often concentrated, in sub-zero environments (above -5°C). It alleviates concerns related to winter project management and is beneficial for both quality control and project management. 【Features】 ■ Excellent anti-peeling performance achieved just by applying ■ Shortest construction period of 2 days, reducing total costs ■ Usable in sub-zero winter environments (applicable temperature range: -5°C to 40°C) ■ Demonstrates good anti-peeling performance across various temperature ranges without a net (with a pull-off strength of over 1.5 kN and a displacement of over 10 mm at -30°C, 23°C, and 50°C) *For more details, please download the PDF or feel free to contact us.

  • Civil Engineering Method

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