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[Super Sol Construction Case] A1 Case Study of Maintenance Management of Buried Pipes

[Super Sol Construction Case] A1 Case Study of Maintenance Management of Buried Pipes

This is a case of bridge maintenance work (tentative name) for the Hiro Second Bridge and the left bank approach road in Kure City, Hiroshima Prefecture.

We would like to introduce a construction case study of the artificial lightweight material "Super Sol," made from crushed and sintered waste glass. To reduce differential settlement, the embankment was changed from soil to Super Sol. Super Sol was adopted to facilitate the maintenance of existing buried pipes (gas and water pipes) under the bridge approach road, allowing for repeated backfilling after excavation. 【Construction Case Study】 - Project Details: Bridge maintenance work (tentative name) Hiroshimaken Kure City Hiro Daini Ohashi, left bank approach road - Usage Category: Civil engineering / Lightweight embankment / Underground buried objects - Client: Kure City - Construction Location: Kure City, Hiroshima Prefecture - Required Performance: Lightweight, strength, soil pressure reduction For more details, please contact us or download the catalog.

  • Glass
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[Super Sol Construction Case] Example of Rainwater Storage in Schoolyard

[Super Sol Construction Case] Example of Rainwater Storage in Schoolyard

Naha City Kura Elementary School - Case Study of the Greenery Project with Super Soil Water Storage Function

We will introduce a case study of the artificial lightweight material "Super Sol," made from crushed and sintered waste glass, used for rainwater retention in schoolyards. The rainwater retention system utilizing Super Sol can maintain water quality without circulating the stored rainwater, allowing for low-cost installation and reduced running costs. It is used for irrigation of plants on a daily basis and can serve as emergency water during disasters, contributing to the conservation of water resources. This project was completed under the Ministry of Land, Infrastructure, Transport and Tourism's "Frontier Project by Construction Companies." 【Case Study】 ○ Project Details: Greenery project with Super Sol water retention function at Furukawa Elementary School, Naha City ○ Usage Classification: Purification / Rainwater retention tank filling material / Schoolyard greening ○ Client: Ministry of Land, Infrastructure, Transport and Tourism ○ Location: Naha City, Okinawa Prefecture ○ Required Performance: Porous / Corrosion suppression For more details, please contact us or download the catalog.

  • Other water treatment equipment
  • Glass
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[Super Sol Construction Case] Subsurface Flow Reed Bed Artificial Wetland for Purification of Dairy Wastewater

[Super Sol Construction Case] Subsurface Flow Reed Bed Artificial Wetland for Purification of Dairy Wastewater

Case study of purification of dairy farm wastewater using a subsurface flow constructed wetland with reed beds at a private K ranch.

We will introduce a case study of the construction of an artificial wetland using the lightweight material "Super Sol," which is made by crushing and sintering waste glass to create a foamed glass material. This project involves the purification of dairy wastewater from a subsurface flow reed bed system. Developed through a collaboration between industry, academia, and government by the National Agriculture and Food Research Organization, this wastewater treatment system purifies high-concentration organic wastewater mixed with manure and milk from dairy farms to a level suitable for river discharge. Super Sol is used as a lightweight floating material on the surface of the wetland. It prevents clogging and provides thermal insulation, allowing for wastewater treatment to begin immediately after construction. 【Construction Case Study】 - Project Details: Purification of dairy wastewater using a subsurface flow reed bed artificial wetland - Application Category: Dairy Farming / Lightweight Floating Material / Parlor Wastewater Purification - Client: Private Sector - Construction Location: Bekkai Town, Hokkaido - Required Performance: Porous, Lightweight, Insulating For more details, please contact us or download the catalog.

  • Other water treatment equipment
  • Wastewater/wastewater treatment equipment
  • Glass

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[Super Soil Construction Case Study] A1 Case of Embankment Lightweighting through Weak Ground Measures

[Super Soil Construction Case Study] A1 Case of Embankment Lightweighting through Weak Ground Measures

This is an example of the improvement work for the Iwami IC No. 2 on the Route 9 Saji Mountain Bypass in Iwami District, Tottori Prefecture.

We would like to introduce a case study of the construction of the artificial lightweight material "Super Sol," made from crushed and sintered waste glass, in the context of "lightweight embankment measures for soft ground countermeasures." This project involved embankment work associated with the construction of a new road. As a countermeasure for soft ground, it was necessary to lighten the embankment for the protection of box culverts and to address differential settlement, leading to the use of the environmentally friendly material Super Sol. Width: approximately 15 to 27 meters, Length: approximately 47 meters, Embankment height: approximately 6 meters, including behind the bridge abutment. 【Construction Case Study】 - Project Details: Improvement work for the Iwami IC of the Route 9 Shichiyama Bypass - Usage Category: Civil Engineering / Behind Bridge Abutment / Roadbed - Client: Ministry of Land, Infrastructure, Transport and Tourism, Chugoku Regional Development Bureau - Location: Iwami County, Tottori Prefecture - Required Performance: Lightweight, Strength, Soil Pressure Reduction For more details, please contact us or download the catalog.

  • Glass
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[Super Sol Construction Case] Example of Filling the Step at the A1 EPS Upper Part

[Super Sol Construction Case] Example of Filling the Step at the A1 EPS Upper Part

This is an example of the comprehensive grant (improvement) project for the Sakiyaki Kizuki Line in the Satokata area of Unnan City, Shimane Prefecture.

We would like to introduce a construction case study of the artificial lightweight material "Super Sol," made from crushed and sintered waste glass. This case study focuses on the filling of the step above the EPS. In the road widening project, EPS (expanded polystyrene) was used. Super Sol, a lightweight material, was adopted as the filler for the gap between the installed EPS and the subgrade. 【Construction Case Study】 - Project Details: Yaskikikujisen Sakikata District Comprehensive Grant (Improvement) Project - Usage Category: Civil Engineering / Lightweight Fill / Subgrade / EPS Gap Filler - Client: Shimane Prefecture - Construction Location: Unnan City, Shimane Prefecture - Required Performance: Lightweight, Workability, Strength For more details, please contact us or download the catalog.

  • Glass

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[Super Sol Construction Case] A2 U-shaped retaining wall infill material case

[Super Sol Construction Case] A2 U-shaped retaining wall infill material case

This is a case of the improvement work on National Route 2 in the Monzen area of Tatsuno City, Hyogo Prefecture.

We will introduce a construction example of the artificial lightweight material "Super Sol," which is made by crushing and sintering waste glass to create a foamed glass lightweight material, used as infill for U-shaped retaining walls. This is part of the improvement work on National Route 2. Super Sol, which can reduce weight, was used as the infill material for the U-shaped retaining wall. Lightweight materials were considered to reduce the load on the underground passage and waterway that cross beneath the national road. Initially, another material was planned for use, but due to concerns about dissolution from leaks of gasoline and other substances, Super Sol, an inorganic mineral material with low degradation from heat and oil, was adopted. 【Construction Example】 - Project Details: Improvement work in the Monzen area of National Route 2 - Application Category: Civil Engineering / Structural Backfill / Retaining Wall / Roadbed - Client: Ministry of Land, Infrastructure, Transport and Tourism, Kinki Regional Development Bureau - Construction Location: Tatsuno City, Hyogo Prefecture - Required Performance: Lightweight, Load Reduction, Heat and Oil Resistance For more details, please contact us or download the catalog.

  • Glass
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[Super Sol Construction Case] A1 Case of Subgrade Replacement Work for Poor Drainage Road

[Super Sol Construction Case] A1 Case of Subgrade Replacement Work for Poor Drainage Road

This is a case of improvement paving work at the national supplementary road intersection in Ryugasaki City, Ibaraki Prefecture.

We would like to introduce a case study of the construction using the artificial lightweight material "Super Sol," which is made by crushing and sintering waste glass to create a foamed glass product, in the project of replacing the subgrade of a road with poor drainage. The site had poor drainage, and even after paving, water would seep up, causing repeated subsidence. In the construction of a new road, Super Sol, which is lightweight and has good drainage properties, was adopted for the subgrade replacement work. The thickness of the Super Sol application was approximately 1.7 meters. After the construction, no subsidence like before was observed, and it is now being used as a comfortable road. 【Construction Case Study】 - Project Details: National Subsidy Road Intersection Improvement Paving Work - Usage Classification: Civil Engineering / Lightweight Fill / Subgrade Replacement - Client: Ibaraki Prefecture - Construction Location: Ryugasaki City, Ibaraki Prefecture - Required Performance: Lightweight, Soil Pressure Reduction, Drainage For more details, please contact us or download the catalog.

  • Glass
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Exhibition of examples of glass-foam lightweight materials! Announcement of technical training sessions/events.

Exhibition of examples of glass-foam lightweight materials! Announcement of technical training sessions/events.

【Exhibiting at the 2024 NEW Environment Exhibition/EE Tohoku '24】 Applicable for various purposes such as civil engineering, greening, agriculture, water purification, and insulation.

"Super Sol" is a lightweight material recycled from glass bottles and other sources. It is an amorphous, gravel-like artificial pumice made by crushing and sintering waste glass into particles ranging from 2 to 75 mm in size. Utilizing its characteristics such as lightweight, permeability, water retention, non-combustibility, and thermal insulation, it is used in a wide range of applications including civil engineering, greening, agriculture, water purification, and insulation. In particular, "Glass Foam Recycled Material - Super Sol" as a civil engineering material has a unit weight of about 4 kN/m3, which is approximately one-fifth that of conventional fill materials, making it very lightweight. When this lightweight fill material is used on soft ground, it allows for the construction of embankments and other structures without the need for foundation improvement, which can be economically advantageous. 【We are currently offering a catalog of products by application as a gift!】 ■ Lightweight fill material "Super Sol L2" ■ Greening material "Super Sol L1" ■ Agricultural material "Super Sol L1" ■ Purification material "Super Sol L2・L4" ★ Eco Mark certified, with registration records in NETIS! NETIS: QS-980235 (old registration) Eco Mark certification number: 08131005 *For more details, please download the catalog. Feel free to contact us with any inquiries.

  • Glass

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[Construction Example] Super Sol Disaster Recovery Work

[Construction Example] Super Sol Disaster Recovery Work

There are case studies of construction work for disaster recovery! No curing period is required, allowing for a shortened construction time.

We would like to introduce a case of construction work for disaster recovery using Super Sol conducted by our company. To proceed with construction quickly, it is essential to ensure the timely delivery of materials, transportation to the site, workability, material costs, and stable supply of materials. "Super Sol" can be combined with crushed stone (such as excavated soil) to reduce costs. It can be constructed using standard earthwork procedures, contributing to a shortened construction period. We have examples of disaster recovery work, tsunami evacuation road widening projects, and mixed lightweight soil and sandwich-type construction. Please take a look at our catalog. 【Benefits】 ■ Shortened construction period (no curing time required) ■ There are case studies of construction in disaster recovery work ■ Cost reduction is possible by combining with crushed stone (such as excavated soil) ■ Can be constructed using standard earthwork procedures, contributing to a shortened construction period ■ Shipping available from 18 factories nationwide, from Hokkaido to Okinawa *For more details, please download the PDF or feel free to contact us.

  • Organic Natural Materials

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