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Construction Method Product List and Ranking from 112 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Jan 07, 2026~Feb 03, 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:Jan 07, 2026~Feb 03, 2026
This ranking is based on the number of page views on our site.

  1. 三和グランド Tokyo//Building materials, supplies and fixtures
  2. 第一カッター興業 本社 Kanagawa//others
  3. スリーエーシステム Osaka//Other manufacturing
  4. 4 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
  5. 5 北陸ガス圧接 Ishikawa//Manufacturing and processing contract
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Construction Method Product ranking

Last Updated: Aggregation Period:Jan 07, 2026~Feb 03, 2026
This ranking is based on the number of page views on our site.

  1. Dry peel-off service スリーエーシステム
  2. Flare welding 北陸ガス圧接
  3. Mangle roll for textile machinery (steam-resistant) 朝日護謨工業所
  4. TerraTech method for correcting tilts, subsidence, and level differences in floors and buildings: Case study collection giveaway. 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
  5. 4 Sticking Prevention TOP Treatment Series ツー・ナイン・ジャパン

Construction Method Product List

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Automatic bending correction machine

Automatic bending correction machine

Bending correction machine ideal for bar materials, pipe materials, and forged products. Depending on the type, it can handle up to 2000 tons!

This is an ideal bending correction machine for bar materials, pipe materials, and forged products. We offer a variety of machines, including the "automatic bending correction machine" with a non-contact laser system, the "gantry-type bending correction machine" that can be easily mounted with an automatic transport device, and the "full servo control bending correction machine" that can move to any position with an operational carriage. For more details, please contact us or download the catalog.

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Large nesting 1-ton cart (with brakes)

Large nesting 1-ton cart (with brakes)

Large nesting 1TON cart (with brakes) / Part number M14A520P-20E

The cargo bed can be raised to allow for nesting from the rear. This product is delivered on the vehicle.

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"Chili Edge Coating Protection Liquid Clear Line" LCL Method

"Chili Edge Coating Protection Liquid Clear Line" LCL Method

Just fill the gap between the ceiling and the wall with the material! The liquid clear line method becomes transparent when it dries.

The "LCL Method" is a painting masking technique called "Liquid Clear Line." By using a clear liquid (amorphous) material for edge masking, it is possible to efficiently create clear (distinct) lines at the junctions with textured finishing areas. For this method, we offer materials such as "Acrylic-based Acrico NB," which can be applied with a brush, and "Modified Silicone-based Hensei Chiri Cork NB," which excels in workability. 【Features】 ■ Becomes transparent when dry ■ No paint leakage from gaps ■ Allows for efficient creation of clear lines ■ Simply fill the gaps between the ceiling and wall with LCL method materials *For more details, please refer to the PDF document or feel free to contact us.

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Embossed stainless steel

Embossed stainless steel

The corrosion resistance remains the same, but is improved. Embossed stainless steel.

- The inherent high corrosion resistance of stainless steel is maintained. - The susceptibility to scratches from coins is significantly improved. - It is possible to design contrasts and textures. - It is possible to design company names, product names, and logos. - Characters and logos can be accurately positioned with precision. (Adaptation to continuous pressing) - With two series of single-sided and double-sided embossing, we can accommodate various requests. - The strength increases and the rigidity improves due to embossing, allowing for thinner sheet thickness, which leads to cost reduction and weight savings. *Please refer to the catalog download for dimensions and standard designs.

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Rock bonding Keiwon Bond method

Rock bonding Keiwon Bond method

Rockfall prevention work that integrates and stabilizes the ground using high-strength mortar and adhesive mortar.

The "Rock Bonding Keiwon Bond Method" is a rockfall prevention technique that stabilizes unstable rock masses and boulders by integrating and fixing them to the ground using high-strength mortar and adhesive mortar, thereby covering the entire slope for stabilization. This method fills the voids in unstable rock masses caused by cracks in the bedrock and cavities in boulders with the high adhesive strength of Keiwon Bond, eliminating unstable factors by bonding and integrating with the stable bedrock.

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Teratec Construction Report: School

Teratec Construction Report: School

Solving problems at school! Introducing "TerraTech" construction examples for settlement correction and void filling.

We would like to introduce a case where we solved problems caused by subsidence and voids at a school using the Teratec method. 【Problem】 We received a consultation from a junior high school in Yamagata Prefecture stating, "The classroom floor is sagging, and the desks are wobbling." Upon investigation, it was confirmed that voids were present under the floors in six classrooms due to long-term ground subsidence. 【Reason for Choosing Teratec】 It was believed that the methods to address ground subsidence of concrete floors were either to redo the flooring or to apply a topping and adjust the level. However, considering the time required for moving, demolition work, and the curing period after concrete pouring, it was determined that the construction would take more than a month, making it difficult to complete during the summer vacation. Therefore, the Teratec method was adopted. 【Feedback After Construction】 By utilizing the summer vacation period to implement this method, we were able to completely eliminate the wobbling of desks and chairs. *For more details, please visit the external link page or feel free to contact us. https://teretek.jp/plus/case/school Toll-free number: 0120-873-835

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Customer Feedback Vol. 2 Manufacturing Factory "TerraTech Method"

Customer Feedback Vol. 2 Manufacturing Factory "TerraTech Method"

Introducing a discussion with Akebono Industries, who conducted a floor deflection reduction project using the Teratec method.

In July 2016, we spoke with Mr. Tatsuya Abe, the President, and Mr. Kiyotaka Abe, the Executive Vice President of Akebono Sangyo Co., Ltd., who conducted a floor deflection reduction project at their factory using our "Teratech Method." The company is headquartered in Minamisenju, Arakawa Ward, Tokyo, and has its first and second factories in Noda City, Chiba Prefecture. They primarily manufacture rubber mats and carpets for automobiles and are expanding their business into the production of industrial materials. This document includes information on the situation before construction, the issues faced, and the reasons for choosing our company. [Contents] - Situation before construction and the trigger for the inquiry - Reasons for choosing our company - Issues caused by floor deflection - Information about our construction work *You can download materials that include customer feedback. *For more details, please feel free to contact us. Toll-free number: 0120-873-835

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Customer Feedback Vol. 3 Refrigerated Warehouse "Teratec Method"

Customer Feedback Vol. 3 Refrigerated Warehouse "Teratec Method"

Introducing a conversation with Ichiyou regarding the floor sinking correction work using the Teratec method.

In September 2017, we spoke with Mr. Toshio Baba, Vice President of Oriichi Co., Ltd., who conducted floor sinking correction work for a refrigerated and frozen warehouse using the "Terra Tech Method." The company was founded in 1953 in Imaichi City, Tochigi Prefecture, with the aim of manufacturing and selling wooden folding boxes and paper containers. Since then, it has expanded its business to include cardboard manufacturing, corrugated production, a weight bag system division, a packaging division, a packaging materials and equipment division, and the refrigerated warehouse and frozen transportation division that we worked on this time. This document includes information about the situation before construction, the reasons for choosing our company, and details about the construction work. [Contents] ■ Situation before construction and the trigger for the inquiry ■ Reasons for choosing our company ■ I was surprised by the beauty of the finish ■ Space efficiency is important for refrigerated warehouses ■ Details about our construction work * You can download materials that include customer feedback. * For more details, please feel free to contact us. Toll-free number: 0120-873-835

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Customer Feedback Vol. 1: Warehouse "Teratec Method"

Customer Feedback Vol. 1: Warehouse "Teratec Method"

Introducing a discussion with Chuo Packing Transport, who performed subsidence correction of a warehouse using the TerraTech method.

In February 2017, we spoke with Mr. Yoshinori Shitaira, Executive Director of Chuo Packing Transport Co., Ltd., about the floor sinking correction work carried out in their warehouse using the "TerraTech Method." Chuo Packing Transport Co., Ltd., headquartered in Suginami Ward, Tokyo, is a transportation, warehousing, and recycling company. Founded in 1969, it has contributed to the development of the Japanese economy through office relocations for corporations, seasonal product storage/management, document storage services, PC kitting services, and logistics. This document includes information on the situation before construction, reasons for choosing our company, and details about the work performed. [Contents] ■ Situation before construction and the trigger for the inquiry ■ Reasons for choosing the TerraTech Method ■ Reasons for choosing our company ■ Impressions after construction *You can download materials containing customer feedback. *For more details, please feel free to contact us. Toll-free number: 0120-873-835

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Acidic soil amendment pH Balance S

Acidic soil amendment pH Balance S

A neutralizing agent for acidic soil that does not cause alkaline damage.

The soil on slopes and other areas targeted for greening projects is often severely lacking in nutrients and soil microorganisms, making it unsuitable for plant growth and not "fertile soil." In particular, in the case of supportive soils, necessary bases in the soil can be leached away by acids, leading to deficiencies, and the number of effective soil microorganisms drastically decreases. pH Balance S contains organic materials such as polysaccharides and proteins, which promote the explosive growth of soil microorganisms. The relationship between soil and soil microorganisms is essential for plant growth and "soil creation," as the aggregation of soil, nutrient supply, and organic matter supply are all functions of the soil.

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[Construction Example] Bag Manufacturing Factory in Miyagi Prefecture

[Construction Example] Bag Manufacturing Factory in Miyagi Prefecture

We will introduce a case of a bag manufacturing factory that sank due to ground subsidence and the impact of an earthquake!

We would like to introduce a case study of floor sinking correction work and subfloor void filling work carried out at a bag manufacturing factory located in Miyagi Prefecture. The neatly arranged bag-making machines were tilted due to floor sinking, which hindered production. As a temporary measure, legs (for height adjustment) were installed under the machines to level them, allowing work to continue. Consequently, we received a request for correction from the company, as we can quickly make adjustments without removing the machines, and we proceeded with the work. In addition to the floor sinking, voids were also observed under the floor, so we carried out the filling work as well. [Case Study] ■ Construction Area: Approximately 730m² ■ Maximum Sinking Amount: Approximately 110mm ■ Construction Period: 3 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] T Printing Company Factory in Miyagi Prefecture

[Construction Example] T Printing Company Factory in Miyagi Prefecture

We would like to introduce several examples of factories in the industrial zone of Miyagi Prefecture that have been modified using our construction method!

We would like to introduce a case of floor vibration suppression work carried out at the T Printing Company factory located in Miyagi Prefecture. In a factory where a machine weighing approximately 26 tons is placed, the floor began to vibrate after the earthquake. To confirm the situation before the installation of the machine, core drilling was performed at several locations. As a result, it was confirmed that there was a gap of up to approximately 180mm beneath the concrete. By carrying out gap filling work, we were able to restore the original performance of the concrete floor and suppress the floor vibrations. Additionally, we also conducted floor subsidence correction work at a factory of T Industry located in Miyagi Prefecture. 【Case Study】 <Floor Vibration Suppression Work at T Printing Company Factory in Miyagi Prefecture> ■ Construction: (Phase 1) July 2011, (Phase 2) October 2011 ■ Maximum Gap Size: Approximately 180mm ■ Total Construction Area: Approximately 160m2 ■ Actual Working Days: 1.5 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Correction Work for Floor Subsidence in Store - Continuous Night Work Without Stopping Business

[Construction Case] Correction Work for Floor Subsidence in Store - Continuous Night Work Without Stopping Business

Maximum subsidence of 144mm, construction area of approximately 2,300m2! Introduction of a case where corrections were made over 11 consecutive nights of construction.

Due to the impact of the Great East Japan Earthquake, the floor inside the store has significantly sunk. As a result of the floor sinking, gaps were observed between the floor and walls, as well as between the walls and ceiling. Therefore, our company carried out repair work. The "Upcon Method," which can be implemented at night during the business suspension, was adopted for the repairs. Additionally, voids were observed under the floor, so filling work was also conducted. 【Construction Overview】 ■ Construction Area: Approximately 2,300m2 ■ Maximum Settlement: 144mm ■ Construction completed in 2012, with repairs made over 11 consecutive nights. *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Parts Manufacturer Factory: Floor Slab Settlement Correction Work

[Construction Case] Parts Manufacturer Factory: Floor Slab Settlement Correction Work

A case where the earthen floor, which had subsided and developed gaps due to the earthquake, was repaired in a short construction period without demolishing the existing floor!

We would like to introduce a case of "floor slab settlement correction work" and "void filling work under the floor slab" conducted at a parts manufacturer factory in Fukushima Prefecture. There were various areas within the factory experiencing settlement and deflection, resulting in a wavy floor slab and the formation of voids in addition to the settlement. After the work was completed, the floor slab in the factory was corrected to nearly level, and to suppress vibrations caused by forklift passage, focused injection filling was performed in the aisle areas to mitigate vibrations. [Case Summary] ■ Construction Area: Approximately 1,470 m² ■ Maximum Settlement: 40 mm ■ Maximum Void: 60 mm ■ Area: Parts manufacturer located in Fukushima Prefecture ■ Construction Period: 11 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Food Processing Plant: Earthquake Recovery Floor Slab Settlement Correction Work

[Construction Case] Food Processing Plant: Earthquake Recovery Floor Slab Settlement Correction Work

Settlement of the earthen floor caused by the earthquake! Correcting the settled floor before the factory renovation work in a short period.

We would like to introduce a case of "floor sinking correction work (earthquake recovery work)" carried out at a food processing factory in Iwate Prefecture. Due to the impact of the Great East Japan Earthquake, extensive renovations were necessary, and to achieve a swift recovery, the Upcon method, which allows for quick corrections, was adopted. The construction area was approximately 1,135 m², with a maximum gap of 221 mm. The construction period was six days, utilizing two construction plant vehicles. 【Case Overview】 ■ Construction Area: Approximately 1,135 m² ■ Maximum Gap: 221 mm ■ Area: Iwate Prefecture ■ Construction Period: 6 days (※ Supported by two construction plant vehicles) *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Warehouse and Factory: Floor Slab Settlement Correction and Void Filling Work

[Construction Example] Warehouse and Factory: Floor Slab Settlement Correction and Void Filling Work

Due to ground subsidence, there is sinking and sagging in the concrete floor! The items remain as they are, and the concrete floor will be repaired in a short time.

We would like to introduce a case of "floor sinking correction and void filling work" carried out at a warehouse and factory located in Hokkaido. Due to the effects of ground subsidence, there were signs of sinking and sagging in the floor, and we received a request for correction from the company. Before the work, the racks used for storing goods, which had become tilted due to floor sinking, were adjusted in height using spacers, but after the work, they became flat. [Case Overview] ■ Construction Area: 334m2 ■ Maximum Sinking Amount: 105mm ■ Construction Period: 3 days ■ Area: Sapporo City, Hokkaido *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Large Pachinko Parlor: Earthquake Recovery Work / Slab Floor Settlement Correction Work

[Construction Case] Large Pachinko Parlor: Earthquake Recovery Work / Slab Floor Settlement Correction Work

Settlement due to compaction: Significant sinking of the floor inside the store due to the impact of the Great East Japan Earthquake! We will introduce our response case.

We would like to introduce a case of "earthquake recovery work" and "floor subsidence correction work" carried out at a large pachinko parlor located in Fukushima Prefecture. In this case, the floor inside the store significantly subsided due to consolidation settlement and the impact of the Great East Japan Earthquake. The tilt of the floor caused discomfort while walking inside the store. An up-con method that can be corrected during nighttime when the store is closed was adopted, and our company carried out the subsidence correction work. 【Case Overview】 ■ Construction Area: Approximately 700m2 ■ Maximum Subsidence: 161mm ■ Area: Fukushima Prefecture ■ Construction Period: Continuous 4 nights *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Supermarket: Subfloor Settlement Correction Work (Chiba Prefecture)

[Construction Example] Supermarket: Subfloor Settlement Correction Work (Chiba Prefecture)

Due to the impact of the Great East Japan Earthquake, the floor inside the store sank! A case where repairs were made during the night while the store was closed.

Here is a case study of "subfloor sinking correction work" conducted at a large supermarket in Chiba Prefecture. Due to the impact of the Great East Japan Earthquake, the floor inside the store sank significantly. The Upcon method, which can be corrected during the night while the store is closed, was adopted, and our company carried out the correction. Since the store mainly handles fresh food products, during the construction, we not only used plastic sheets for protection around the injection gun but also enclosed the injectors to prevent resin dispersion while working. [Case Overview] ■ Construction Area: Approximately 2,000 m² ■ Maximum Sinking Amount: 99 mm ■ Area: Chiba Prefecture ■ Construction Period: Continuous 9 nights * To expedite the construction period, two construction plant vehicles were used (2011). * For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Repairing the gaps in the floors and walls of a large shopping center.

[Construction Example] Repairing the gaps in the floors and walls of a large shopping center.

A significant subsidence of the floor due to weak ground! Introducing a case where repairs were made at night during the business closure.

Here is a case study of "floor sinking correction" conducted at a large shopping center in Nara Prefecture. Due to weak ground, the floor sank significantly. As a result of the floor sinking, gaps were observed in various places, such as between the floor and the walls and between the walls and the ceiling. An up-con method that can be corrected during nighttime while the business is closed was adopted, and our company carried out the correction. 【Case Overview】 ■ Construction Area: Approximately 3,240m2 (Backyard 405m2, Inside Store 2,835m2) ■ Maximum Sinking Amount: 94mm ■ Area: Nara Prefecture ■ Construction Period: 25 nights ※ Supported by 2 construction plant vehicles *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Apartment: Correction of Sunken Floor in Entrance Hall / Filling of Underfloor Gaps and Voids

[Construction Case] Apartment: Correction of Sunken Floor in Entrance Hall / Filling of Underfloor Gaps and Voids

Resolve issues such as 'gaps between the wall and ceiling' in just one day with the Upcon construction method!

We would like to introduce a case of "subfloor sinking correction work" and "subfloor void filling work" carried out in a condominium located in Niigata Prefecture. In the RC apartment building (1st floor) we are introducing this time, due to floor sinking, there were issues not only with "floor tilting" but also with "gaps occurring between the walls and ceiling" and "doors not closing." After completing the subfloor sinking correction work and the subfloor void (cavity) work, the gaps between the walls and ceiling were eliminated, and the misaligned tile joints were leveled. Additionally, the doors that had been unable to close due to frame distortion from sinking were now able to close properly. 【Case Overview】 ■ Construction Area: 69m2 ■ Maximum Sinking Amount: 36mm ■ Maximum Void Amount: 190mm ■ Area: Niigata Prefecture ■ Construction Period: 1 day *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Slab Foundation House: Settlement Repair Work (Kyoto Prefecture)

[Construction Example] Slab Foundation House: Settlement Repair Work (Kyoto Prefecture)

Corrected a maximum settlement of 46mm! A case where the distortion of the door frame caused by settlement was resolved.

We would like to introduce a case of "settlement correction work" carried out on a slab foundation house located in Kyoto Prefecture. This is a construction case of a house that had sunk due to ground subsidence, resulting in distorted door frames and gaps. We corrected a slab foundation house with a maximum settlement of 46mm in 2.5 days. 【Case Overview】 ■ Maximum Settlement: 46mm ■ Area: Kyoto Prefecture ■ Construction Period: 2.5 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Slab Foundation House: Settlement Correction Work Due to Earthquake (Ibaraki Prefecture)

[Construction Case] Slab Foundation House: Settlement Correction Work Due to Earthquake (Ibaraki Prefecture)

A maximum settlement of 500mm occurred! An example of correction using a combination of the up-con method and single pipe pile driving method.

We would like to introduce a case of "settlement correction work" carried out on a flat foundation house located in Ibaraki Prefecture. The house was newly built and experienced a maximum settlement of 500mm due to the Great East Japan Earthquake. Due to the significant tilt, we used a combination of the up-con method and the single pipe pile driving method for the correction. 【Case Overview】 ■ Maximum Settlement: 500mm ■ Area: Ibaraki Prefecture ■ Construction Period: 10 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case Study] Slab Foundation House: Settlement Correction Work Due to Liquefaction - Site Tour

[Construction Case Study] Slab Foundation House: Settlement Correction Work Due to Liquefaction - Site Tour

A case study of correcting liquefied ground due to the earthquake! A maximum settlement of about 60mm was corrected in a day and a half.

We would like to introduce a case of "settlement correction work" carried out on a slab foundation house located in Urayasu City, Chiba Prefecture. The house sank due to the impact of the Great East Japan Earthquake. The maximum settlement of approximately 60mm was corrected in 1.5 days. Additionally, there were many requests to visit our construction site, so with the kindness of our customers, we held an open house at this site. Many people were able to visit and observe the work. 【Case Overview】 ■ Maximum Settlement: Approximately 60mm ■ Area: Urayasu City, Chiba Prefecture ■ Construction Period: 1.5 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Slab Foundation House: Settlement Correction Work (Kawasaki City, Kanagawa Prefecture)

[Construction Case] Slab Foundation House: Settlement Correction Work (Kawasaki City, Kanagawa Prefecture)

Possible to carry out without moving! Introducing a case where a settlement of up to 107mm was quickly corrected.

We would like to introduce a case of "settlement repair work" carried out on a slab foundation house located in Kawasaki City, Kanagawa Prefecture. The homeowner, who purchased the house as a pre-built property, was deprived of a comfortable living environment due to the tilting of the house caused by ground subsidence. Several methods for settlement repair were considered, but the homeowner chose our company for the quick and non-disruptive repair without having to move. 【Case Overview】 ■ Maximum settlement amount: 107mm ■ Area: Kawasaki City, Kanagawa Prefecture ■ Construction period: 4 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Slab Foundation House: Settlement Correction Work (Tokyo)

[Construction Case] Slab Foundation House: Settlement Correction Work (Tokyo)

No need for large-scale demolition work! Here is an example of correcting a settlement of up to 95mm in just two days of construction.

We would like to introduce a case of "settlement repair work" carried out on a slab foundation house located in Hachioji City, Tokyo. Due to a maximum settlement of 95mm observed, polyurethane resin was injected under the slab foundation to implement the settlement correction. If you are troubled by the tilting of your slab foundation house caused by earthquakes, liquefaction, or ground subsidence, please feel free to contact us. 【Case Overview】 ■ Construction Area: Approximately 43m2 ■ Maximum Settlement Amount: 95mm ■ Area: Hachioji City, Tokyo ■ Construction Period: 2 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Slab Foundation House: Settlement Correction Work (Kanagawa Prefecture)

[Construction Case] Slab Foundation House: Settlement Correction Work (Kanagawa Prefecture)

Even in cases where the space between neighboring properties is very narrow, construction is possible! A maximum settlement of 66mm can be corrected in 3 days.

We would like to introduce a case of "settlement correction work" carried out at a certain house with a flat foundation in Kanagawa Prefecture. Due to a maximum settlement of 66mm observed in one corner of the living room, polyurethane resin was injected under the flat foundation to implement the settlement correction. This time, the work was performed in a house with very limited space between neighboring properties, but our company can carry out the work without the need for extensive construction, allowing for a short construction period without affecting the neighboring property. 【Case Overview】 ■ Construction Area: 40m2 ■ Maximum Settlement Amount: 66mm ■ Area: Certain residence in Kanagawa Prefecture ■ Construction Period: 3 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Disaster Recovery Concrete Pavement Slab Settlement Correction Work

[Construction Example] Disaster Recovery Concrete Pavement Slab Settlement Correction Work

Our method, which raises the CO pavement using the foaming pressure of rigid urethane resin, has been adopted!

We would like to introduce a case of "Disaster Recovery Concrete Pavement Slab Settlement Correction Work" conducted on the Route 4 Bypass in Koriyama City, Fukushima Prefecture. This was a restoration project for the CO pavement slabs of the Route 4 Koriyama Bypass, which were damaged and settled due to the Great East Japan Earthquake. Our method was adopted, which raises the still sound CO pavement slabs using the foaming pressure of rigid polyurethane resin, while keeping traffic restrictions limited to lane reduction during construction without replacing them. 【Case Overview】 ■ Construction Area: Approximately 2,430 m² ■ Area: Route 4 Bypass in Koriyama ■ Construction Period: 24 days (March 2013) ■ Client: Tohoku Regional Development Bureau, Koriyama Route Office *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Middle School (Gymnasium Floor): Settlement Correction and Void Filling Work

[Construction Case] Middle School (Gymnasium Floor): Settlement Correction and Void Filling Work

Due to the impact of the earthquake, the gymnasium floor has significantly sunk in a bowl shape! A case where the Upcon method was used to solve the problem.

We would like to introduce a case of "settlement correction and void filling work" carried out on the gymnasium floor of a junior high school in Fukushima Prefecture. Due to the effects of an earthquake, the floor had significantly sunk in a bowl shape from the outer edges towards the center, causing issues with the use of the gymnasium. The area that had sunk by a maximum of 108mm was corrected to within the planned value of -15mm, and it was confirmed using a CCD camera that the polyurethane resin was filled without any gaps, completing the work. [Case Overview] ■ Construction Area: 1,036m2 ■ Construction Period: 8 days ■ Maximum Settlement: 108mm ■ Area: Fukushima Prefecture *For more detailed information about the case, please refer to the related links. For further details, please check the PDF materials or feel free to contact us.

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[Construction Example] Elementary School: Floor Slab Settlement Correction Work

[Construction Example] Elementary School: Floor Slab Settlement Correction Work

Utilizing spring break for quick subsidence correction! The cycle from construction to restoration is short.

Here is an example of "settlement correction" performed at an elementary school in Miyagi Prefecture. Due to floor settlement, gaps occurred between the classroom walls and ceiling, causing the classroom door to tilt and hindering the opening and closing of the lock. The overall floor level of the classroom and hallway was corrected from a maximum settlement of 69mm to within -18mm, and the gaps that had formed between the walls and ceiling before the work were also improved. 【Case Summary】 ■ Construction Area: 331m2 ■ Maximum Settlement: 69mm ■ Area: Tagajo City, Miyagi Prefecture / Elementary School ■ Construction Period: 4 days *For more detailed information about the case, please refer to the related link. For further details, please check the PDF document or feel free to contact us.

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Designing office spaces! "Paintable zinc coating"

Designing office spaces! "Paintable zinc coating"

The world of natural "zinc coating"! We are broadcasting new possibilities of zinc from this office! It can be used not only for rust prevention but also as a design element.

We would like to introduce a case study of our product, the "Robal Series," applied at the Robal Corporation's Kitahama office located in Osaka City. Originally used as a rust preventive for iron and galvanized materials, "Robal" is showcased here in a decorative context. When Robal is applied to a steel plate, the finish appears monochrome. However, when applied to plywood, the texture follows the wood grain, expressing various brightness levels depending on the viewing angle. Moreover, by changing the orientation of the board, the way light hits it changes, allowing for a gradient effect to be observed. This office is filled with inspiration by showcasing numerous examples of Robal in use. [Case Overview] ■ Design: Nikken Space Design ■ Location: Robal Corporation's Kitahama office in Osaka City *For more details, please refer to the related link page or feel free to contact us.

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