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In educational institutions, ensuring the safety of students and providing a comfortable learning environment are essential. Particularly during disasters such as earthquakes, it is crucial to minimize the risk of damage from falling ceiling materials. Additionally, noise during classes and decreased heating and cooling efficiency can impact learning effectiveness. Our "SLC Method" addresses these challenges with excellent seismic resistance and sound absorption and insulation performance. 【Usage Scenarios】 - Learning spaces where people gather, such as classrooms, gymnasiums, and auditoriums - Facilities that want to enhance safety during earthquakes - Situations where a quiet and focused learning environment is desired 【Benefits of Implementation】 - Reduces the risk of ceiling collapse during earthquakes, enhancing safety - Provides an environment conducive to concentration by suppressing noise during classes with excellent sound absorption performance - Improves heating and cooling efficiency and maintains a comfortable room temperature through insulation performance - Reduces the burden during construction due to lightweight materials
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In art museums and galleries, it is essential to maximize the appeal of the exhibited works and provide a comfortable space for visitors, which requires high ceilings with flexibility and safety. Particularly, when changing exhibition content or introducing new display methods, the flexibility of the ceiling structure becomes crucial. Additionally, to protect valuable exhibits and ensure visitor safety, it is indispensable to reduce the risk of falling from the ceiling during disasters such as earthquakes. Our "SLC Method" contributes to addressing these challenges with a lightweight and highly seismic-resistant ceiling system. 【Usage Scenarios】 - Layout changes in exhibition spaces - Increased flexibility in the placement of lighting and display equipment - Creating an open space that utilizes high ceilings 【Benefits of Implementation】 - Enables flexible design and modification of exhibition spaces - Enhances visitor peace of mind through improved safety - Creates attractive spaces through diversified display methods
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In commercial facilities, especially in stores, providing customers with a comfortable and safe space leads to a refresh of the image and an increase in customer satisfaction. The ceiling is a significant element that greatly influences the impression of a space, requiring not only design but also safety and functionality. Particularly during disasters such as earthquakes, it is crucial to reduce the risk of damage from ceiling material breakage or detachment. Our "SLC Method" addresses these challenges with lightweight and high seismic resistance. 【Usage Scenarios】 - Store renovations and renewals - Construction of new stores - Common areas in commercial facilities - Event spaces 【Benefits of Implementation】 - Improved safety of stores - Reduced risk of damage during disasters - Provision of a comfortable store environment - Achievement of high-design interiors
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At event venues, rapid setup and safety assurance are required. In particular, when setting up ceilings, it is important to have a structure that is lightweight, easy to handle, and provides peace of mind even in emergencies. Inadequate ceiling structures can lead to delays in setup time and potentially exacerbate damage in the event of an incident. The ultra-lightweight ceiling "SLC Method" reduces the number of components and achieves a weight of less than 2.0 kg/m2. By fully bonding and securing the ceiling panels, the structure is designed to minimize the risk of damage or detachment during vibrations. This contributes to improved setup efficiency and safety at event venues. 【Usage Scenarios】 - Temporary setups for exhibitions, concerts, sports events, etc. - Venues that require quick setup and dismantling - Venues with many items suspended from the ceiling 【Benefits of Implementation】 - Reduced setup time and decreased workload - Increased peace of mind against shaking from earthquakes and other disturbances - Assurance of safety during the event
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The "SLC method" is a system ceiling that uses lightweight, soft, sound-absorbing, and excellent thermal insulation glass wool decorative panels, significantly reducing the number of components to achieve an ultra-lightweight of less than 2.0 kg/m². Since the ceiling panels are fixed with adhesive all around, they are less likely to break or fall off during vibrations. In seismic experiments conducted on a shaking table at Kyoto University’s Disaster Prevention Research Institute, even after applying seismic waves measured at a magnitude of 6 or higher from major earthquakes across various regions (Note 1) continuously for 102 times, there was no damage or detachment! This contributes to reducing the risk of human casualties during disasters, securing evacuation locations, and maintaining the functionality of disaster prevention bases, including hospitals. 【Features】 ■ Ultra-lightweight of less than 2.0 kg/m² ■ Less likely to deform or fall during earthquakes ■ Strength against balls and other impacts in gymnasiums has also been verified ■ The "SLC-FH method," which enhances design aesthetics without exposing frame components, is also available in the lineup ★ For more details, please refer to the construction case collection and catalog available for download in PDF format.
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Our ultra-lightweight, new seismic-resistant ceiling system uses lightweight, soft, sound-absorbing, insulating, and aesthetically pleasing decorative glass wool ceiling panels. The ceiling is constructed with aluminum extrusions that are flexible, lightweight, highly dimensionally accurate, and excellent in processability, serving as the main structural base. The ultra-lightweight SLC method is a ceiling construction method that falls under direct-attachment ceilings, excluding specific ceilings, with a weight of 2 kg/m² or less. It has been adopted for ceiling restoration work in facilities affected by the Kumamoto earthquake, such as Gran Messe Kumamoto and the Prefectural Art Museum annex. *For more details, please download the PDF or feel free to contact us.*
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The "Super Lightweight Ceiling SLC Method" is a ceiling construction method that achieves a weight of 2.0 kg/m² or less for ceiling surface components. The ceiling panels use lightweight and soft glass wool decorative boards that excel in sound absorption and thermal insulation. The main T-bars are notched at the top and the cross T-bars at the bottom, intersecting to form a grid of 1000mm x 1500mm, and by fixing them with SP clips, the number of components is significantly reduced, making it possible to achieve a weight of 2.0 kg/m² or less. Since the main and cross T-bars are constructed in their full length, they are less likely to warp during an earthquake. Additionally, by fully bonding the ceiling panels around the perimeter, they are resistant to breaking even in unexpected large earthquakes, and in the unlikely event of a break, the likelihood of them falling apart and dropping is very low. 【Features】 ■ Achieves a ceiling surface component weight of 2.0 kg/m² or less ■ Less likely to warp during earthquakes ■ Resistant to breaking even in unexpected large earthquakes ■ Very low likelihood of falling apart and dropping if broken ■ Strength against impacts, such as from balls, has been verified through collision tests *For more details, please refer to the PDF materials or feel free to contact us.
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The "Super Lightweight Ceiling SLC Method" is a ceiling construction method that achieves a weight of 2.0 kg/m² or less for ceiling surface components. The ceiling panels use lightweight and soft glass wool decorative boards that excel in sound absorption and thermal insulation. The main T-bars are notched at the top and the cross T-bars at the bottom, intersecting to form a grid of 1000mm x 1500mm, which significantly reduces the number of components by securing them with SP clips. This makes it possible to achieve a weight of 2.0 kg/m² or less. Since the main and cross T-bars are constructed in long lengths, they are less likely to warp during an earthquake. Additionally, by fully bonding the ceiling panels around the perimeter, they are resistant to breaking even in unexpected large earthquakes, and in the unlikely event of a break, the likelihood of them falling apart is very low. 【Features】 ■ Achieves a ceiling surface component weight of 2.0 kg/m² or less ■ Less likely to warp during earthquakes ■ Resistant to breaking even in unexpected large earthquakes ■ Very low possibility of falling apart if broken ■ Strength against impacts from balls and other objects has been verified through collision tests ★ A collection of construction photos is currently available! * For more details, please refer to the PDF materials or feel free to contact us.
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For buildings where the design of the ceiling frame is a concern, such as theaters and halls, we recommend the "SLC-FH method," which makes the frame invisible. By fitting guide panels into a newly shaped main bar, we have established a structure where the frame is not visible after assembly. In seismic tests, there was no damage to the substrate, no distortion of components, and no detachment, ensuring that it possesses seismic resistance similar to the SLC method. 【Features】 ■ Achieves a ceiling component weight of 2.0 kg/m² or less ■ Less prone to distortion during earthquakes ■ Resistant to breakage even in unexpected large earthquakes ■ In the unlikely event of breakage, the likelihood of pieces falling apart is very low ■ Strength against impacts, such as from balls, has been verified through collision tests ■ The frame is not visible, allowing for high design quality in construction *For more details, please refer to the PDF document or feel free to contact us.
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