Structural members Product List and Ranking from 10 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Structural members Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. 三井ホーム 木材建材事業本部 Tokyo//Building materials, supplies and fixtures manufacturers
  2. センクシア 東京支店、札幌支店、東北支店、関東支店、北陸支店、中部支店、関西支店、中四国支店、九州支店 Tokyo//Building materials, supplies and fixtures manufacturers
  3. エム・エムブリッジ Hiroshima//Structural Design Office
  4. 4 コシイプレザービング 本社 Osaka//Building materials, supplies and fixtures manufacturers
  5. 5 シェルター 本社 Yamagata//Building materials, supplies and fixtures manufacturers
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Structural members Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. MOCX Green Buildings [Wooden Construction Support] 三井ホーム 木材建材事業本部
  2. Exposed Type Column Base Method High Base NEO Method *Structural Member センクシア 東京支店、札幌支店、東北支店、関東支店、北陸支店、中部支店、関西支店、中四国支店、九州支店
  3. [Construction Case] Sanriku Coastal Road Tokoe Bridge Replacement Work エム・エムブリッジ
  4. 4 Wooden Warehouse Using the Wood Big Span Method 三井ホーム 木材建材事業本部
  5. 4 High-durability wooden barn-style erosion control dam construction [From concrete to wood] Easy to install! コシイプレザービング 本社

Structural members Product List

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Exposed Type Column Base Method High Base NEO Method *Structural Member

Exposed Type Column Base Method High Base NEO Method *Structural Member

Emphasizing rationalization and burden reduction in building structural design!

The High Base NEO construction method has obtained certification from the Minister of Land, Infrastructure, Transport and Tourism regarding materials and evaluation from the Japan Building Center (BCJ Evaluation - ST0059, ST0058) regarding the construction method. By having certified contractors from Senkushia perform construction tasks such as anchor bolt installation and non-shrink mortar filling, the quality of the column bases and the reliability of structural performance are enhanced. 【Features】 ■ Emphasis on rationalizing structural design and reducing burdens, alleviating the designer's workload ■ Obtained evaluations from the Japan Building Center for the construction method and certification from the Minister of Land, Infrastructure, Transport and Tourism for the materials ■ Further cost reduction through the reduction of steel material volume For more details, please refer to the catalog or website.

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  • Structural Materials
  • Steel Structure System
  • Foundation construction

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[Production Example] FRP Pultruded Products Structures *Corrosion elimination and reduction of construction man-hours!

[Production Example] FRP Pultruded Products Structures *Corrosion elimination and reduction of construction man-hours!

FRP is lightweight, about half the weight of a steel frame, making it possible to install it anywhere, such as on the rooftops of existing buildings! Here are examples of pull-out molded products utilizing FRP!

We would like to introduce a case study of FRP pull-formed products and structures manufactured by our company. We were using a steel inspection path, but it was corroding due to the application of antifreeze agents. To address this issue, we provided an FRP-made substructure inspection path that alleviated concerns about corrosion. Additionally, we have examples of reducing construction man-hours with FRP-made frames and preventing corrosion due to salt damage with FRP-made stairs. 【Case Overview】 <FRP-made Substructure Inspection Path> ■Issue: We were using a steel inspection path, but it was corroding due to the application of antifreeze agents. ■Solution: - Made of highly corrosion-resistant FRP, unaffected by antifreeze agents. - Reduced maintenance costs and alleviated concerns about corrosion. *For more details, please download the PDF or feel free to contact us.

  • Outdoor stairs
  • Steel structure construction

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Inspection and repair by qualified specialized technicians for preservative-treated wood.

Inspection and repair by qualified specialized technicians for preservative-treated wood.

We can provide repair proposals! Leave the maintenance of park facilities to us.

To use park facilities for a long time, "appropriate maintenance" is necessary. Components that wear out or deteriorate due to use need to be replaced within the standard usage period. Under conditions of proper maintenance, if the structural components are made of steel, a guideline of 15 years is set, and for wooden components, 10 years is the benchmark. Sanmoku Industry's park facility product safety managers and park facility product maintenance technicians can propose repairs for park facilities. Please leave the maintenance to us. 【Benefits of Repairing】 ■ Component Replacement - By replacing deteriorated or damaged components, they can be used for a longer time. ■ Repainting - By repainting components that have become outdated due to peeling paint, their appearance can be revitalized. *This applies in cases of relatively minor deterioration. ■ Complete Renovation - If deterioration is severe and cannot be addressed by replacing some components, we can propose a complete renovation. ■ Improvement - We can propose improvements, such as addressing gaps in playground equipment that pose safety issues. *For more details, please refer to the PDF document or feel free to contact us.

  • Other park materials

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[COOL WOOD Case Study] G Building Jiyugaoka 01 Building B

[COOL WOOD Case Study] G Building Jiyugaoka 01 Building B

A three-story commercial building with a combination of warmth and strength in its fire-resistant wooden structure!

We would like to introduce "G Building Jiyugaoka 01 B Wing," a commercial building we have developed. Aiming to create a commercial architecture that gently welcomes people and has a cozy atmosphere that makes them want to visit, the structure itself becomes a part of the spatial design, and the stores create further charm and enjoyment while respecting the wooden space. COOL WOOD is easy to process and can be manufactured using various types of wood to suit design and cost requirements. The appearance of the columns and beams is wooden, allowing the building to be finished with the warmth of wood. 【Features】 ■ A home-like commercial building with a cozy atmosphere that makes people want to visit ■ Fire-resistant wooden structure that combines warmth and strength ■ The structure itself is a part of the spatial design *For more details, please refer to the PDF or feel free to contact us.

  • wood
  • Special wooden structures

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【COOL WOOD Case Study】Kyoto Wood Industry Hall

【COOL WOOD Case Study】Kyoto Wood Industry Hall

This building, featuring impressive louvered panels resembling a cedar grove, is made entirely from timber sourced from Kyoto Prefecture!

We would like to introduce our pure wooden four-story building, the "Kyoto Wood Industry Hall." This four-story building is constructed entirely from timber sourced from Kyoto Prefecture. The louvers, made from solid cedar boards joined together, deliver soft light reminiscent of dappled sunlight indoors, aiming to create a hall where visitors can find their favorite types of wood. COOL WOOD is easy to process and can be manufactured using various types of wood to suit design and cost requirements. The appearance of the columns and beams is wooden, allowing for a building that utilizes the warmth of wood. 【Features】 ■ A building with impressive louvers resembling cedar groves ■ 100% use of timber sourced from Kyoto Prefecture for structural materials ■ A design that incorporates various uses of wood in both interior and exterior finishes ■ A spatial structure that offers a comfortable atmosphere that invites people to visit *For more details, please refer to the PDF or feel free to contact us.

  • wood
  • Special wooden structures

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[COOL WOOD Case] Shelter Nanyo Hall Nanyo City Cultural Center

[COOL WOOD Case] Shelter Nanyo Hall Nanyo City Cultural Center

This is a dynamic and warm large hall made possible by fire-resistant wooden structure technology!

We would like to introduce the large wooden hall "Shelter Nanyo Hall (Nanyo City Cultural Center)" that we have developed. With the basic philosophy of being "a creative base for arts and culture that promotes diverse interactions among citizens," we actively utilized locally sourced cedar wood from the structure to the finishing touches. The dynamic and warm large hall, made possible by fire-resistant wooden structure technology, boasts high acoustic performance and is a platform for new artistic and cultural expressions. COOL WOOD is easy to process and can be manufactured with various types of wood to suit design and cost requirements. The appearance of the columns and beams is wooden, allowing for a building that takes advantage of the warmth of wood. [Features] ■ Active use of locally sourced cedar wood ■ Dynamic high acoustic performance made possible by fire-resistant wooden structure technology *For more details, please refer to the PDF or feel free to contact us.

  • wood
  • Special wooden structures

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[KES Construction Case] Restaurant "Trattoria Agreste"

[KES Construction Case] Restaurant "Trattoria Agreste"

Introducing examples that leverage the incredible strength and flexibility of joining hardware!

We would like to introduce a case study of the "KES construction method," which is a method of joining materials in wooden architecture developed and standardized in Japan. 【Case Study】 <Trattoria Agreste> ■ Design: Ma Architecture Planning ■ Location: Ibaraki Prefecture, Ishioka City ■ Site Area: 1,690.74 m² ■ Building Area: 297.38 m² ■ Total Floor Area: 294.56 m² ■ Number of Floors: 1 above ground *For more details, please refer to the PDF document or feel free to contact us.

  • Specialized Construction
  • Special Construction Method
  • wood

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[KES Construction Method Example] Commercial Facility "Michi no Eki Takano"

[KES Construction Method Example] Commercial Facility "Michi no Eki Takano"

Introducing the case study of the "KES method" for joining metal fittings in wooden construction: "A roadside station open to the city."

We would like to introduce a case study of the "KES construction method," which uses unique connection hardware in wooden architecture. This is a roadside station that features local wood, crafted by local artisans, and showcases agricultural products from local farmers. This area, famous for its highland vegetables, is one of the heaviest snowfall regions in the Chugoku region. To ensure safe access around the building even in winter and to approach each section, we adopted the KES construction method. This roadside station aims to be recognized by people as a new landscape in this area, which changes dramatically in winter, and to contribute to regional revitalization. 【Case Study】 <Roadside Station Takano> ■ Design: Oohata Renhe Architectural Design ■ Location: Shobara City, Hiroshima Prefecture ■ Site Area: 4,694.74 m² ■ Building Area: 1,797.06 m² ■ Total Floor Area: 1,487.25 m² ■ Number of Floors: 1 above ground *For more details, please refer to the PDF document or feel free to contact us.

  • Housing structure technology/long-term superior housing technology
  • Earthquake-resistant construction method
  • Special Construction Method

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Structural design methods for super high-rise reinforced concrete buildings using ultra-high strength materials.

Structural design methods for super high-rise reinforced concrete buildings using ultra-high strength materials.

Structural design method for super high-rise reinforced concrete buildings using ultra-high-strength materials.

Structural Design Method for Super High-Rise Reinforced Concrete Buildings Using Ultra-High Strength Materials 【Features】 ○ When constructing super high-rise buildings in reinforced concrete (RC) rather than steel-reinforced concrete (SRC), it is possible to achieve approximately a 10% cost reduction in the structural framework compared to SRC. ○ By utilizing precast components for columns, beams, floors, balconies, etc., and adopting a rational formwork system, it is possible to shorten the construction period by about 10% compared to SRC. ○ The use of high-strength concrete and high-strength rebar allows for longer spans and reduced cross-sections of components, enabling the creation of highly flexible spaces. ○ Adopting a ductile reinforced concrete structure improves seismic resistance. ● For other functions and details, please contact us.

  • Balcony/Sunroom Unit
  • Steel construction
  • Other construction services

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Wooden Warehouse Using the Wood Big Span Method

Wooden Warehouse Using the Wood Big Span Method

A large-span wooden warehouse is realized with a low volume of materials to keep costs down. Wooden structures are being chosen for large-scale warehouses and factories.

The "Wood Big Span Method," which uses high-durability and high-strength wooden trusses, allows for the construction of warehouses with large spans and high ceilings even in wooden structures. According to the 2019 Construction Start Statistics Survey Report, when comparing the construction unit prices of various structures, it is evident that wooden warehouses are more than 10% cheaper than steel-framed warehouses. Additionally, while the useful life of depreciable assets is set shorter compared to other structures, it does not necessarily mean that the lifespan of wooden buildings is shorter than that of other structures. The "useful life for depreciation" is merely a guideline; for warehouses, the depreciation period for steel structures (with steel thickness over 4mm) is 31 years, while wooden structures can be depreciated in less than half that time, at 15 years. 【Features】 ■ Can be used as a commercial warehouse ■ Achieves a 4m eave necessary for loading and unloading, and a ceiling height of 7m ■ May be eligible for subsidies *You can view case materials from the "PDF Download." Please feel free to contact us with any inquiries.

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  • Systems Architecture
  • Structural Materials
  • Wood panel and frame wall construction

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MOCX Green Buildings [Wooden Construction Support]

MOCX Green Buildings [Wooden Construction Support]

We will support the success of that project with our expertise in "wood." Mitsui Home will be your company's "wooden construction division."

Do you have any of these concerns? "I want to build with wood, but I don't know where to start." "I'm stuck with structural design." We can solve your problems. Our Wood Materials Business Division provides comprehensive support for wooden construction from planning and design to construction. We offer optimal solutions for your concerns. Strengths of the Wood Materials Business Division: 1. Achieving large-scale and spacious wooden structures with high-performance wood technology. By utilizing advanced technologies such as "Double Shield Panel (DSP)" and "Connect Truss," we enable the construction of large-scale and spacious wooden buildings with an open feel. 2. Diverse construction methods to meet various needs. We can accommodate various construction methods and structures, including wooden frame construction, two-by-four construction, wooden frame structures, and hybrid structures with RC and S construction. This allows us to respond to diverse architectural design needs. 3. Sustainable manufacturing rooted in the community. We have production facilities across Japan and actively promote the use of local materials. This contributes to the realization of a sustainable society that considers the environment.

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  • Structural Materials
  • Wood panel and frame wall construction

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High-durability wooden barn-style erosion control dam construction [From concrete to wood] Easy to install!

High-durability wooden barn-style erosion control dam construction [From concrete to wood] Easy to install!

No curing period required! Easy material transport! Excellent workability, allowing for shortened construction time! Landscape considerations are also achieved!

The high-durability "Wooden Schoolhouse-style Erosion Control Dam" promotes the use of wood by transitioning from traditional concrete and steel dams to wooden dams, contributing to the global environment. By deeply impregnating wood with preservatives, we have achieved long-term durability comparable to that of concrete and steel dams. The estimated lifespan based on decay test results is over 50 years. Demonstration experiments and structural calculations have proven that the strength of the components and the resistance of the joints are sufficient, confirming that it functions as a unified structure without issues. Stability calculations for gravity structures examine stability against overturning, sliding, and ground support. The assembly construction does not require skilled labor, as it uses pre-cut components manufactured in a factory. It is featured in the "Essential Guide for Erosion Control Forest Roads (Estimation and Construction Edition)." **Features** - **Stability:** A structure based on stability calculations and structural calculations as a gravity structure. - **Durability:** Meets the "quality, performance, and durability" required for civil engineering structures. - **Economy:** Comparable to gravity concrete. - **Speed:** Excellent workability allows for shortened construction periods. - **Environmental Consideration:** Promotes the use of wood and takes landscape into account. *For more details, please visit our website or refer to the PDF materials, or feel free to contact us.*

  • Civil Engineering Method
  • Other civil engineering works
  • wood

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[FREE WOOD Case Study] Mount Fuji World Heritage Center, Shizuoka Prefecture

[FREE WOOD Case Study] Mount Fuji World Heritage Center, Shizuoka Prefecture

Constructed with a total of 6,973 pieces! Creating a new design for wooden architecture!

We would like to introduce the "Shizuoka Prefecture Mount Fuji World Heritage Center," a cultural facility that we have developed. Our facility, which has five floors above ground, is designed with a focus on the concept of "aijakuri," combining elements in a way that resembles weaving with a single material at the intersection points. The lattice structure, both inside and outside, is constructed from a total of 6,973 pieces, each crafted from materials with varying curvature, twist, and length. [Features] ■ There are 7,261 intersection points, each with a different shape. ■ Based on the concept of aijakuri, the elements are combined. ■ The design resembles weaving with a single material. *For more details, please feel free to contact us.

  • wood
  • Special wooden structures

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[KES Construction Method Example] Commercial Facility "Michi no Eki Bingo Fuchu"

[KES Construction Method Example] Commercial Facility "Michi no Eki Bingo Fuchu"

Introducing the case study of the "KES Method" for joining metal fittings in wooden construction: "Roadside Station Open to the City."

We would like to introduce a case study utilizing the "KES Method," a connection hardware construction method developed under the mission of "protecting the lives and property of important families" in wooden architecture. This roadside station, located near JR Fuchu Station in Fuchu City, Hiroshima Prefecture, aims to create vibrancy not by gathering buildings together, but by arranging dispersed structures that generate liveliness from a collection of small spaces, including citizens passing through. To ensure that locally produced furniture is prominently displayed, a delicate structural plan features wooden beams resting on solid wood columns and beams made of steel. The roofs are separated by building sections yet partially connect, forming a unified structure. This design allows for a high level of transparency and creates a continuously overlapping scene. 【Case Study】 <Roadside Station Bingo Fuchu> ■Location: Fuchu City, Hiroshima Prefecture ■Site Area: 1,470.99 m² ■Building Area: 822.30 m² ■Total Floor Area: 772.82 m² ■Number of Floors: 1 above ground *For more details, please refer to the PDF document or feel free to contact us.

  • Housing structure technology/long-term superior housing technology
  • Earthquake-resistant construction method
  • Special Construction Method

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