Construction method Product List and Ranking from 1597 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 29, 2025~Nov 25, 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 29, 2025~Nov 25, 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 日本海洋サービス 大阪支店 Osaka//Building materials, supplies and fixtures manufacturers
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Construction method Product ranking

Last Updated: Aggregation Period:Oct 29, 2025~Nov 25, 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 Reinforcement of existing beam after hole cutting: "Redouble Method" コンステック
  5. 5 Temporary bridge temporary pier cable-stayed construction method "LIBRA Method" 横山基礎工事

Construction method Product List

2086~2100 item / All 4237 items

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Japan Insulation New Tycalite R Renewal Method

Japan Insulation New Tycalite R Renewal Method

Clean renovation of peeled rock wool "New Taika Light R Renewal Method"

Sprayed rock wool fireproofing may fall off due to various factors, and if left unattended, it could have serious consequences for the building structure during a fire. With the renewal method using calcium silicate fireproofing board "New Taikalite R," you can beautifully renew the structure with minimal removal of the sprayed rock wool. *For more details, please refer to the "JIC Fireproof Products Comprehensive Catalog" p.15–p.16.*

  • Steel construction
  • Renovation and repair methods

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Cable Flame Retardant Fireproof Construction Method Catalog

Cable Flame Retardant Fireproof Construction Method Catalog

Cable Flame Retardant Fireproof Construction Method Catalog

It includes fire-resistant methods for penetrations in fire compartments (walls and floors) (JIC cable fire spread prevention fire-resistant method).

  • Heat insulation and heat shielding methods
  • media

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Hot spring and hot water pipe GNGAR: Insulation properties & maximum usage temperature 95℃!

Hot spring and hot water pipe GNGAR: Insulation properties & maximum usage temperature 95℃!

Solving issues such as scale buildup, corrosion, and heat loss due to water quality! Numerous achievements in hot spring piping and heat supply piping!

GNGAR is an insulated pipe structure primarily used for hot springs and hot water. Nominal diameter: 25–250 Maximum operating temperature: 95℃ 【Features】 ○ The conduit is made of cross-linked polyethylene, which has characteristics such as heat resistance and chemical stability. ○ The use of EF sockets made of cross-linked polyethylene eliminates concerns about corrosion, similar to traditional metal fittings. ○ It is a long pipe that has undergone consistent processing for insulation, installation, and corrosion protection in the factory. ○ Pipes with a nominal diameter of 100 or less can be delivered to the site as long pipes (tab-wound). ○ The delivery of long pipes allows for labor-saving in construction and shortening of construction periods, which can reduce construction costs. ○ The long pipes are flexible and can be extended while bending. ○ They are ideal for exposed piping in mountainous areas and for soft ground such as marshes and reclaimed land, and they also excel in seismic resistance. ○ The outer layer is coated with low-density polyethylene containing carbon black, providing excellent weather resistance and corrosion resistance.

  • Power generation facilities
  • Water Supply Facilities
  • Insulation work

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Water Supply and Drainage (Insulated) Pipe GNGWDA - Outstanding Freeze Prevention Performance!

Water Supply and Drainage (Insulated) Pipe GNGWDA - Outstanding Freeze Prevention Performance!

Lightweight, long-length, high strength, and excellent insulation performance! It is a high-performance freeze prevention pipe!

GNGWDA is increasingly being adopted for bridge attachments and suspended piping due to its unique characteristics of lightweight, flexibility, and earthquake resistance that are not found in other types of pipes. Nominal diameter: W40 to W100 (The conduit dimensions conform to ISO standards.) 【Features】 ○ The composite pipe structure of polyethylene and aramid fibers provides high internal pressure strength, and the corrugated steel pipe protects against external pressure. ○ The rigid polyurethane insulation layer prevents freezing of fluids inside the conduit. ○ Pipes with a nominal diameter of W100 or less can be delivered to the site as long pipes (tab-wound). ○ The use of long pipes can reduce labor and shorten construction time, leading to cost savings. ○ The long pipes are flexible and can be extended while bending. ○ They are ideal for soft ground such as marshy areas and reclaimed land, and they also excel in earthquake resistance. ○ The outermost layer is coated with low-density polyethylene containing carbon black, which offers excellent weather resistance and corrosion resistance, making it suitable for exposed pipes. ○ EF fusion and automatic butt fusion create a reliable pipeline with a unified structure. ○ It has sufficient weather resistance and internal and external pressure strength for use as bridge attachment pipes.

  • Water and sewerage pipe fittings

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MESCO-made mechanical seismic joint for pipes Suppon MWX

MESCO-made mechanical seismic joint for pipes Suppon MWX

Kawanishi Waterway Machinery × Mitsui Mining & Smelting Engineering Dedicated mechanical seismic joint that maximizes the performance of MESO pipes!!

The Suppon MWX is a seismic joint designed specifically for pipes, manufactured by Mitsui Mining & Smelting Engineering Co., Ltd. (MESCO), that does not require disassembly. It accommodates nominal diameters from Φ40 to Φ200. The allowable water pressure can reach up to 2.0 MPa using a dedicated in-core. It can be installed without the need for flange processing or welding work when connecting bridge-mounted pipelines, and can be put into service immediately after installation with just one wrench. Additionally, it does not require special tools, allowing for installation unaffected by environmental conditions (weather or mountainous areas). - The pipe-on-slide connection allows for easy adjustment and alignment between bridge piping and buried piping. - There is a wide range of options available for connecting MESCO pipes with other types of pipes (such as PVC and cast iron). - There is a rich lineup of products ideal for installing mechanical soft-seal shut-off valves and fire hydrants that eliminate the risk of leakage from shut-off valves.

  • Water and sewerage pipe fittings
  • Fittings
  • Piping materials (copper pipes, cast iron pipes)

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Paper on the SKK Method

Paper on the SKK Method

Improvement of soil quality in soft excavation soil using the gap water suction method (SKK method).

The "Tajiri District Drainage Channel No. 3 Construction" is a project to construct a road tunnel with an excavation length of 134 meters in the Tajiri Takaya area of Ichikawa City, Chiba Prefecture, close to the Tokyo Metro Tozai Line. The tunnel will be built using an open-cut method with an excavation width of approximately 30 meters and a depth of about 15 meters. Due to concerns about insufficient trafficability and deteriorating construction conditions during soil removal, the project utilized the SKK method, which combines the Super Well Point (SWP) method with suction pipes to improve soil quality by extracting pore water and underground air from the soft ground, thereby addressing these issues. The "Paper on the SKK Method" reports the results of confirming the applicability of the SKK method for soil improvement through trial construction and actual construction. 【Contents】 - Overview of the SKK Method - Confirmation of soil improvement effects through on-site trial construction - Application results of the SKK Method (verification in actual construction) For more details, please contact us or download the catalog.

  • Special Construction Method

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Comparison of Groundwater Lowering Methods

Comparison of Groundwater Lowering Methods

High pumping capacity! Comparison of the Super Well Point Method and other groundwater lowering methods.

This document compares three groundwater lowering methods: the "Super Well Point Method," the "Deep Well Method," and the "Well Point Method." It provides detailed information on each method, including an "Overview Diagram," "Principles (Pumping Methods)," and "Advantages and Disadvantages." The Super Well Point Method is effective not only for lowering groundwater levels but also for countermeasures against bulging, promoting consolidation, and landslide prevention. It is often adopted as a widespread groundwater lowering method for facilities such as adjustment ponds. We encourage you to read it. [Contents] ■ Methods (Division of Functions) ■ Overview Diagram ■ Principles (Pumping Methods) ■ Supplementary Principles ■ Advantages and Disadvantages *For more details, please refer to the PDF document or feel free to contact us.

  • Water Treatment
  • Water Treatment Plant
  • Special Construction Method

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Groundwater Measures for the Main Underground Works of the Sendai Airport Access Railway

Groundwater Measures for the Main Underground Works of the Sendai Airport Access Railway

Introducing SWP method and VPRW method as foundation work and groundwater control technologies!

This document presents information on "Groundwater Measures in the Underground Main Construction of the Sendai Airport Access Railway." In this construction, the "Super Well Point Method" was adopted as the groundwater lowering method, and the "Vacuum Press Type Recharge Well Method" was used as the treatment method for returning pumped groundwater back underground. We introduce the methods that have also resolved issues such as the high concentration of dissolved iron in groundwater, starting from the comparative examination stage. [Contents] ■ Introduction ■ Overview of the Construction and Site Conditions ■ Overview of SWP Method and VPRW Method ■ Construction Details ■ Conclusion *For more details, please refer to the PDF document or feel free to contact us.

  • Special Construction Method
  • Water Treatment
  • Water Treatment Plant

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A&S Method Case Studies

A&S Method Case Studies

A detailed explanation of Asahi Techno's ground improvement technology with examples!

This document provides a detailed explanation of the ground improvement technology developed as one of the methods of consolidation dewatering, known as the "SKK Method." It includes examples of consolidation dewatering using the "SKK Method" implemented in residential areas in the Kanto region. [Contents] ■ Ground improvement technology using the SKK Method ■ Overview of consolidation dewatering methods ■ Overview of the SKK Method ■ Examples of consolidation dewatering using the SKK Method ■ Challenges *For more details, please refer to the PDF document or feel free to contact us.

  • Ground improvement
  • Ground foundation construction method
  • Special Construction Method

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Application technology of SWP method: Screen for boiled drainage and suction-type small well.

Application technology of SWP method: Screen for boiled drainage and suction-type small well.

Introduction of application technology for the Super Well Point method.

This document includes the "Kamaage Drainage Screen" and "Suction-Type Shallow Well," which apply the technology of the SWP method. We introduce screens effective in preventing clogging, such as "Light-KAMA (for fine sand)," as well as wells that use negative pressure propagation for vacuum suction and draw water from underground, like "Qin-KAMA (self-suction shallow well type)." [Contents] - Light-KAMA (for fine sand) - Heavy-KAMA (coiled screen) - Qin-KAMA (self-suction shallow well type) - Qin-KAMA-T (wide-range self-suction shallow well type) *For more details, please refer to the PDF document or feel free to contact us.

  • Special Construction Method
  • pump
  • Water Treatment

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Asbestos containment and slate strength restoration revival method

Asbestos containment and slate strength restoration revival method

A restoration method that can achieve both insulation and waterproofing effects with a single construction.

The SOSEI method allows for both insulation and waterproofing effects to be achieved in a single application by spraying polyurethane foam and waterproof polyurethane onto corrugated and slate roofs. ■□■Features■□■ ■The polyurethane foam layer adheres seamlessly to the roof, making it less likely to peel compared to other insulation materials and providing excellent insulation performance. ■Due to its superior compressive strength, it reinforces existing roofing materials. ■With minimal mist dispersion and a tack-free time of 3 to 10 seconds, it cures quickly, resulting in less mess and reduced temporary costs for splash prevention. ■It has a condensation prevention effect, allowing for flexible adjustment of the thickness of the polyurethane foam layer based on indoor temperature, indoor humidity, and outdoor temperature conditions. ■With an average productivity of 500/m2 per day, it excels in workability, significantly shortening construction time and achieving savings on labor and general management costs. ■It forms a robust coating, has excellent self-adhesiveness, and results in a seamless finish, thereby enhancing durability. ■For more functions and details, please download the catalog or contact us.

  • Heat insulation and heat shielding methods
  • Renovation and repair methods
  • Coating film waterproofing material/permeable waterproofing material

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Case Study 1 of Renovation of Slate Warehouse Roof Using SOSEI Method

Case Study 1 of Renovation of Slate Warehouse Roof Using SOSEI Method

Case study of slate warehouse roof renovation using thermal insulation coating waterproofing.

【Overview of Renovation Case】 Project Name: Renovation of Slate Roof at Warehouse in Certain Location Location: Izumi-Otsu City, Osaka Prefecture Construction Period: April 2019 Area: Two Gable Roofs (Large Wave Slate) Construction Area: 1,856m2 【Background of Construction Method Adoption】 Due to the wind force of Typhoon No. 21 that struck in 2018, the large wave slate on the warehouse roof was cracked and scattered. The client, seeking early operation of the manufacturing line, considered repair technology options and concluded that: - Roof damage due to typhoons was occurring frequently in various locations, causing delays in responses from repair contractors. - Although the adoption of a steel plate cover method was considered, it would significantly increase the load burden on the structural framework, and there was a risk of the roof being lifted by strong winds if another typhoon struck. → *For further details, please download the PDF. Source: Shinkisha Co., Ltd. "Waterproofing Journal"

  • Heat insulation and heat shielding methods
  • Roof and gutter construction
  • Renovation and repair methods

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Case Study 2 of Renovation of Slate Warehouse Roof Using SOSEI Method

Case Study 2 of Renovation of Slate Warehouse Roof Using SOSEI Method

Case study of factory roof renovation using polyurethane waterproofing and insulation spray method.

【Overview of Renovation Case】 Project Name: Renovation of Slate Roof at a Certain Factory Location: Kuki City, Saitama Prefecture Construction Period: September 2019 Area: Gable Roof (Large Wave Slate) Construction Area: 770m2 【Background of Construction Method Adoption】 This property had a damaged skylight area due to aging, which was causing water leaks. We considered repairs that would not interfere with the operation of the manufacturing line placed inside the factory; however, since repairs to the skylight area needed to be directly applied to the slate substrate, the construction company was concerned about the risk of puncture accidents, and the repairs did not progress smoothly. Therefore, we communicated to the client that there were numerous successful cases of similar construction methods and that we had established construction know-how... → *For further details, please download the PDF. Source: Shinjukusha Co., Ltd. "Waterproofing Journal"

  • Heat insulation and heat shielding methods
  • Roof and gutter construction
  • Renovation and repair methods

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Slate Roof Renovation Method "SOSEI Method" - Eight Characteristics -

Slate Roof Renovation Method "SOSEI Method" - Eight Characteristics -

Waterproof, reinforced, and insulated with a special three-layer resin. Introducing the SOSEI method backed by verification tests such as accelerated weather resistance tests and bending strength tests, featuring eight characteristics!

The "SOSEI Method" is a spray cover technique that applies a three-layer special resin to aging slate and metal roofs, creating various effects such as waterproofing, insulation, and reinforcement. Here, we introduce the eight characteristics supported by verification tests! ■ Durability (Accelerated Weather Resistance Test) ■ Adhesion (Adhesion Confirmation Test) ■ Compressive Strength (Bending Strength Test) ■ Insulation (Slate Roof Insulation Measurement) ■ Safety (Punching Test) ■ Insulation (Roof Fire Resistance Test) ■ Impact Resistance (Ball Drop Test) ■ Waterproofing (Completely Seamless Waterproofing) *For more details, please download the PDF or feel free to contact us.

  • Others/Roofing materials (shingles, cement, steel sheets, aluminum)
  • Renovation and repair methods
  • Roof and gutter construction

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Piping construction: "Top Mall Method" for non-excavation installation of pipelines! Construction case study.

Piping construction: "Top Mall Method" for non-excavation installation of pipelines! Construction case study.

We will excavate underground extensively without open-cutting and install communication cables, gas pipes, and pipes for water supply and drainage.

The Top Mall Method (Small Diameter Boring Method) is a non-excavation construction method for the installation of buried pipelines using a drill boring machine. It is suitable for construction in locations where excavation is difficult, such as national roads and railway tracks, and being a non-excavation method, it is a clean and simple boring method that does not produce spoil. Additionally, it is equipped with a directional correction boring method. 【Features】 ■ Boring Direction Correction Function: Curved boring is possible (Type M mainly performs straight boring) ■ Detection of the Leading Drill Head: Recognizes angles and other parameters, ensuring high safety and reliability ■ Compaction Method: No ground subsidence occurs due to being a no-spoil method ■ Short Construction Period: Approximately 30m to 50m per day per location, depending on soil type, pipe size, and working environment ■ No significant traffic disruption, allowing for daytime construction ■ Environmentally friendly clean method that does not produce industrial waste due to the lack of excavation *For more details, please download the PDF or contact us.

  • Other civil engineering works

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