Construction method Product List and Ranking from 1593 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

1036~1050 item / All 4218 items

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System Water Stop Material "Metal Beat Top (Water Cut)" Product Catalog

System Water Stop Material "Metal Beat Top (Water Cut)" Product Catalog

A metal beat top water drainage series that pursues water resistance, workability, and safety to the utmost limit!

This catalog features the system waterproofing components "Metal Beat Top Water Stop Series," which pursue water resistance, workability, and safety to the utmost limit. Included in the lineup are the "MI-45 and 70 types" of water stop materials for rooftop upstands, utilizing a one-touch fitting method, as well as the "MI-125 to 225 types" with a non-seal mechanism. This series boasts excellent corrosion resistance due to the use of anodized coating composite film (9μm anodizing + 7μm clear coat) and stainless steel screws. [Contents] ■ MI-45 and 70 TYPE ■ MI-125 to 225 TYPE ■ MI-K45 TYPE ■ MI-S100 and 125 TYPE *For more details, please refer to the PDF document or feel free to contact us.

  • Temporary Construction Materials

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Multi-drain vacuum dewatering method

Multi-drain vacuum dewatering method

Multi-drain vacuum dewatering method for sorting turbid water and high moisture soil!

The "Multi-Drain Vacuum Dewatering Method" utilizes the dewatering effects of vacuum consolidation and air-drying, employing a simple device with multiple drains, a vacuum pump, and an air compressor to dewater high moisture content soil in a short time. Depending on the moisture content of the target sludge or slurry, two operational modes can be selected: sludge treatment mode and turbid water treatment mode. The device features a simple configuration of specially designed dewatering sheets, a frame, a sludge tank, a vacuum pump, and a compressor, all of which can be transported by a 4-ton truck. 【Features】 ■ Patent No. 4538829 & Patent No. 4761043 ■ Utilizes dewatering effects from vacuum consolidation and air-drying ■ Dewaters high moisture content soil in a short time ■ Two operational modes available: sludge treatment mode and turbid water treatment mode *For more details, please refer to the PDF document or feel free to contact us.

  • Civil Engineering Method
  • Ground foundation construction method
  • Water Treatment

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Construction method "Total Transfer Method"

Construction method "Total Transfer Method"

Even with a long distance of movement, total transfer is achieved at a value equivalent to separation transfer!

The "Total Transfer Method" is one of the methods for relocating the slab foundation structure in house moving work, where the entire foundation is moved along with the base. It utilizes a frame that allows for movement without detaching the foundation, resulting in very little load on the building. Since the original structure is maintained during the move, there is no risk of distortion or danger from axis loosening. Additionally, by reviewing the labor and arrangements for total transfer from various angles, we have streamlined the process and improved tools and equipment, enabling us to achieve total transfer at a cost equivalent to that of separation transfer, even for long distances. 【Features】 ■ Entire foundation is moved along with the base ■ Minimal load on the building *For more details, please refer to the catalog or feel free to contact us.

  • Wiring devices

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Concrete repair method "Paint Guard CV"

Concrete repair method "Paint Guard CV"

Extend the lifespan of structures at low cost! A new peeling prevention paint for concrete structures.

【NETIS Registration Number KT-150090-VR】 "Paint Guard CV" is a construction method that enhances the inherent corrosion resistance by incorporating fibers into the paint, adding a concrete spalling prevention function. This method, developed specifically for deterioration suppression and spalling prevention, can be implemented at a lower cost compared to other methods for aging RC structures. Its excellent workability allows for speedy construction with fewer work processes compared to conventional methods. 【Features】 ■ Suppression of harmful substances such as moisture and salt intrusion ■ Elasticity to accommodate concrete cracking ■ Low-cost method ■ Short construction period ■ Strong resistance to harsh environments *For more details, please refer to the PDF materials or feel free to contact us.*

  • Exterior coating materials
  • paint
  • Renovation and repair methods

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[Metal Road Construction Method Case Study] Nara Prefecture Road Improvement Project

[Metal Road Construction Method Case Study] Nara Prefecture Road Improvement Project

Ensuring safe and smooth passage! Case study of road improvement work on National Route 425, Jūzato to Sakon Nishikawa section (II-2 section).

National Route 425 in Nara Prefecture is a road that facilitates regional exchange, connecting the city of Gobō in Wakayama Prefecture and the village of Totsukawa in Yoshino District, Nara Prefecture. However, there are continuous sections with narrow widths and poor alignment, making it difficult for vehicles to pass each other in many areas. Therefore, construction was carried out with the aim of eliminating narrow width sections, ensuring safe and smooth passage, and contributing to tourism promotion. The site is located within the area of the World Heritage Kumano Kodo, and due to the need for consideration of the landscape and the preservation of water channels, the metal road construction method was adopted. 【Case Overview】 ■ Client: Nara Prefecture, Gojō Civil Engineering Office ■ Construction Period: January 5, 2022 – June 30, 2022 ■ Total Length: 19.0m ■ Width: 6.95m *For more details, please refer to the PDF document or feel free to contact us.

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  • Special Construction Method

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[Metal Road Construction Method Case Study] Yamanashi Prefecture Road Improvement Project

[Metal Road Construction Method Case Study] Yamanashi Prefecture Road Improvement Project

Design and construction that avoids interference with existing structures is possible! Here is a case study on the main local road Fujikawa-Minobu Line.

Here is an example from the emergency road maintenance and reconstruction project ordered by Yamanashi Prefecture. The Fujikawa Minobu Line (Prefectural Road No. 10) is an important route designated as a second emergency transport road. The site had a thick alluvial fan layer, and existing structures (stone walls and drainage) were in close proximity, creating a challenging environment. As a result, the design and construction that could avoid interference with existing structures while ensuring traffic on the existing road was evaluated positively, leading to the adoption of the metal road construction method. 【Case Overview】 ■ Client: Yamanashi Prefecture, Kōnan Construction Office (Minobu Branch) ■ Construction Period: March 24, 2021 – August 31, 2022 ■ Total Length: 42.5m ■ Width: 7.0m (8.2m) *For more details, please refer to the PDF document or feel free to contact us.

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  • Special Construction Method

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[Construction Example] Metal Road Method

[Construction Example] Metal Road Method

Images included! Introducing examples from dam construction work and road improvement projects.

This document introduces various examples of the "Metal Road Construction Method." It includes the construction work for the main body of the Komagome Dam in Aomori Prefecture, as well as the road improvement work for the Koiwai Motokoiwai Line in Saitama Prefecture. Images are also included, so please download and view them from the related catalog below. [Contents] ■ Aomori Prefecture: Komagome Dam Main Body Construction Work ■ Saitama Prefecture: Koiwai Motokoiwai Line Road Improvement Work ■ Yamanashi Prefecture: General Prefectural Road Takashita Kashizawa Line Road Improvement Work ■ Shizuoka Prefecture: (National) Route 136 Disaster Prevention and Safety Grant (National Road Reconstruction) Work ■ Wakayama Prefecture: National Route 480 Koyasan ■ Kumamoto Prefecture: National Route 445 (Kuzurese Work Section) Vitality Infrastructure Grant (Road Improvement) Work *For more details, please refer to the PDF document or feel free to contact us.

  • Special Construction Method

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[Case Study] Biomass Silo and Slipform Method

[Case Study] Biomass Silo and Slipform Method

The scaffolding and formwork assembly process can be omitted! Here is an example of constructing four silos.

We would like to introduce a case study of our company's "Biomass Silo Slip Form Method." This method integrates the formwork and working floor, allowing them to be raised by jacks, which eliminates the need for scaffolding and the formwork assembly process, enabling continuous concrete pouring. For the construction of four silos, we planned to manufacture the slip form device (SF device) so that it can be divided, thereby shortening the replacement process. (Steel formwork and connection bolts will be newly used for each replacement of the SF device.) 【Case Overview】 ■ Location: Construction of four silos ■ Details - Planned to manufacture the slip form device (SF device) to allow for division and shorten the replacement process. *For more details, please refer to the PDF document or feel free to contact us.

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  • Concrete construction

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[Case Study] Nice Pole/Slip Form Method

[Case Study] Nice Pole/Slip Form Method

Introducing examples from a hardball baseball field in Kanagawa Prefecture and a chimney at a power plant in Yamaguchi Prefecture!

We would like to introduce examples of the adoption of our "Nice Pole/Slip Form Method." In the renovation project (demolition and new construction) of an existing baseball stadium by Kawasaki City, a protective net pole was installed above the stands, reaching a height of approximately 30 meters above ground. This project is a two-phase construction, which includes the manufacturing and installation of the poles and the stretching of the nets. Additionally, in the construction of an RC chimney at a coal-fired power plant, we adopted the "Slip Form Method," which is a safe and labor-saving method that allows for continuous construction of concrete walls. The chimney has a height of 165 meters, and the structure was constructed at a pouring height of approximately 2 meters per day. 【Case Overview】 <Nice Pole> ■Location: Kanagawa Prefecture, Todoroki Hardball Baseball Stadium ■Details: Protective net pole installed above the stands, with a height of approximately 30 meters above ground. <Slip Form Method> ■Location: Yamaguchi Prefecture, T Power Plant Chimney ■Details: The chimney height is 165 meters, constructed at a pouring height of approximately 2 meters per day. *For more details, please refer to the PDF document or feel free to contact us.

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  • Net fence
  • Concrete construction
  • others

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Landslide Prevention Greening Method "Long Strong Net Method" to be released in January 2025.

Landslide Prevention Greening Method "Long Strong Net Method" to be released in January 2025.

Protects the surface layer of the slope to a depth of about 1 meter. Achieves high greening quality and erosion prevention effects using wire, mesh, anchors, and vegetation mats. 【*Presentation of advantages of the construction method available】

The "Ronstrong Net Method" by Rontai is a slope protection technique that enables "collapse prevention up to a depth of 1 meter" by combining vegetation mats with anchor materials and wire ropes. By connecting vegetation mats that cover the entire slope with wire mesh and wire ropes to anchor materials, it effectively prevents surface erosion through greening while also contributing to the prevention of surface collapse. 【Features】 - Protects a depth greater than the roots of plants (approximately 1 meter of surface), suppressing intermediate slope collapses and wedge-type collapses at the slope shoulder. - Can be constructed without large machinery such as spraying machines or belt conveyors. - Enables early stable greening with vegetation mats that include straw. Since manual construction is possible, it allows for reduced construction time and costs in small areas or locations where machinery access is difficult. Please utilize it for disaster prevention, disaster recovery, mountain conservation, and national resilience. *We are currently offering free materials introducing the product catalog and the benefits of the method! You can view them via PDF download. Feel free to consult us for detailed specifications.

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  • Special Construction Method

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Construction method "NS Spike Method"

Construction method "NS Spike Method"

The NS Spike Method: Optimal for Next-Generation Land Utilization!

The "NS Spike Method" is a next-generation construction technique that is optimal for foundation work in environmentally friendly energy sources such as solar and wind power, as well as civil engineering and construction projects. It can be used for ground reinforcement in buildings such as houses and billboards, as well as for road signs and streetlights, allowing for improved cost efficiency, shortened construction periods, and reduced noise and vibration during construction. Especially in soft ground, the characteristics of the NS Spike increase the vertical load-bearing capacity, enabling significant cost reductions. 【Features】 ■ Cost reduction ■ Shortened construction period ■ Environmentally friendly with no need for concrete ■ No need for disposal of excess soil ■ Reusable *For more details, please refer to the catalog or feel free to contact us.

  • Kitchen appliances

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Repair and reinforcement method: "Carbon Fiber Sheet Repair and Fall Prevention Work"

Repair and reinforcement method: "Carbon Fiber Sheet Repair and Fall Prevention Work"

Introduction to Towa Industries' Repair and Reinforcement Methods: Carbon Fiber Sheet Repair and Fall Prevention Work.

We would like to introduce the repair and reinforcement method "Carbon Fiber Sheet Repair and Fall Prevention Work" by Towa Sangyo Co., Ltd., which conducts waterproofing and repair work for concrete structures. 【Carbon Fiber Sheet Repair and Fall Prevention Work】 ■ Substrate Treatment Work  ↓ ■ Unevenness Adjustment Work  ↓ ■ Primer Application Work  ↓ ■ Resin Application Work*  ↓ ■ First Layer Attachment Work*  ↓ ■ Impregnation Material Application Work* (Repeat for 2 layers or more)  ↓ ■ Surface Painting Work  ↓ ■ Completion *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods

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Sash Replacement Method "Liberty Method"

Sash Replacement Method "Liberty Method"

It is a method for window replacement that allows for at-home construction (same-day completion) and offers flexible options.

The "Liberty Method" is a sash replacement technique that offers many advantages, such as expanding indoor space, barrier-free design, and short construction periods. It can accommodate any type of sash. Additionally, it provides the benefit of widening the indoor side, allowing for effective use of an area ranging from 60mm to 100mm by 1800mm, and if desired, a bay window type is also possible. 【Features】 ■ Free renovation for any age of sash ■ Free renovation regardless of the sash manufacturer at the time of new construction ■ Free renovation for any type of existing sash ■ Accepts structural distortions of the building's unique framework ■ Minimal step differences in the sliding door area, barrier-free, etc. *Main service areas: Tokyo, Kanagawa, Chiba, Saitama. Technical support regarding the method is also available, so feel free to consult us even if you are in other regions. *For more details, please download the PDF or feel free to contact us.

  • Renovation and repair methods

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Rooftop Waterproof Air Control

Rooftop Waterproof Air Control

A waterproofing method that removes moisture and heat from the waterproof layer on the roof, contributing to the longevity of the building and energy conservation!

"Rooftop Waterproof Air Control" is a rooftop waterproofing method that achieves overwhelming ventilation while being compatible with various existing waterproofing methods. To overcome the shortcomings of traditional methods that focus solely on "waterproofing ability," we conceptualized the entire waterproof layer as a system and realized "breathable waterproofing" that efficiently expels moisture accumulated within the waterproof layer. With a maximum ventilation capacity of 300m² per degassing unit, it forcibly exhausts high-temperature, high-humidity air and condensation water. 【Features】 ■ Uses core cone ventilation material in the ventilation layer ■ Autonomous forced supply of fresh air ■ Improves the overall health of the building, including the waterproof layer ■ Achieves longer lifespan, enhanced comfort, and energy savings For more details, please refer to the catalog or feel free to contact us.

  • Waterproofing work

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