Unmatched durability and cost-efficiency
ANTISEISMIC Corners & Forms
The product will increase strength, stiffness and ductility of structural elements. solidian ANTISEISMIC Corner ensures the strongest bond in most difficult places of a building.
solidian ANTISEISMIC Corner is certified according to EAD 340392-00-0104 (ETA 23/0383).
Besides Corners, in ANTISEISMIC portfolio are also available different Forms: solidian Patch Arrow is designed to reinforce weakest parts of the wall: joints, corners and edges. solidian Patch Square is ideal addition to our anchoring system for patching holes and preventing cracks. No measuring and cutting needed; take out of the box and apply our solidian Patch Square just like that.
Product Features
- CE Certified: Compliant with European standards for reliable corner reinforcement.
- In-House Developed: Designed and rigorously tested to meet seismic demands.
- Optimized for Corners: Strengthens vulnerable areas, enhancing structural integrity.
- Corrosion Resistant: Durable in diverse environments, suitable for indoor and outdoor use.
- Pre-Formed Design: Custom shape for easy and efficient installation.
- Lightweight and Adaptable: Easy to handle and adjust, suitable for various structures.
reinforcements for the future generations
Product Applications
solidian ANTISEISMIC Corners & Forms are ideal for:
- Buildings in Seismic Regions: Adds strength to corners and edges, reducing the risk of cracking and damage during seismic events.
- Commercial and Residential Buildings: Reinforces structural integrity in both new construction and retrofitting projects.
- Heritage and Historic Sites: Provides structural support for preservation without altering the original design, ideal for sensitive renovation projects.
- Performance Enhancement
- Handling and Logistics
- Compliance and Compatibility
- Application and Installation
- Durability and Resistance
- Sustainability and Environmental Impact
- Is solidian GRID suitable for replacing corroded steel reinforcement?
- How does solidian GRID contribute to system durability when used with mortars?
- Can solidian GRID conform to curved surfaces during installation?
- How does the weight of solidian GRID affect transportation and installation?
- Is there an Environmental Product Declaration available for solidian GRID and solidian REBAR?
- Has solidian GRID received official building approvals?
- With which types of binders is solidian GRID compatible?
- Is solidian GRID approved for use in standard concrete applications?
- What is the minimum thickness required for concrete layers using solidian GRID?
- Can solidian GRID be used to reinforce existing concrete structures?
- What is the expected lifespan of solidian GRID in wastewater applications?
- How does solidian GRID perform in acidic environments?
- How does solidian GRID contribute to sustainable construction?
- Resource efficiency: By minimizing the need for extra concrete cover, solidian GRID conserves materials such as cement and aggregates, contributing to resource efficiency.
- Environmental Product Declarations (EPDs): solidian provides transparent data on the environmental impact of their products through EPDs, facilitating informed decision-making for sustainable building projects.
Solidian Kelteks - Reduced CO₂ emissions: The use of solidian GRID in construction can lead to significant reductions in CO₂ emissions due to decreased material usage and enhanced durability, which extends the lifespan of structures and reduces the need for repairs.
frequently asked questions
Yes, in cases where steel reinforcement has corroded, solidian GRID can serve as a substitute for structural reinforcement. The existing corroded steel can remain in place and be covered with a new layer of carbon-reinforced mortar, restoring structural integrity.
When combined with high-quality mortars, solidian GRID significantly enhances the overall durability of the system, providing a robust solution for demanding environments.
Yes, solidian GRID strikes a balance between stiffness and flexibility, allowing it to be applied to curved surfaces with diameters greater than 800mm.
The lightweight nature of solidian GRID facilitates easy transportation, even through sewage tunnels, and simplifies the installation process, reducing labor and equipment requirements.
Yes, a certified Environmental Product Declaration (EPD) is available for both solidian GRID and solidian REBAR. The EPD provides transparent and verified information about the environmental impact of these products throughout their life cycle, supporting sustainability assessments in construction projects.
Yes, solidian GRID has obtained the General Building Approval (abZ) from the German Institute for Building Technology (DIBt). This approval authorizes its use as carbon reinforcement grids in construction, ensuring compliance with national building standards.
solidian GRID is versatile and works with a range of binders, including Portland Cement, Calcium Aluminate Cements, and Geopolymer Cements.
solidian GRID holds German Approval as reinforcement for EN 206 concretes, supporting its compatibility with various mortar systems, including those adhering to DIN 19573.
Concrete layers reinforced with solidian GRID can be as thin as 20mm, as no additional concrete cover is needed to protect the reinforcement from corrosion.
Yes, solidian GRID can be applied as an additional layer over existing steel-reinforced concrete. When combined with solidian ANTICRACK, it offers enhanced crack-limiting properties, providing extra protection to the underlying steel reinforcement.
Classified under XWW4, solidian GRID ensures long-term performance for over 50 years, making it a durable choice for long-term infrastructure projects.
solidian GRID is fully resistant to severe acidic conditions, including environments with pH levels as low as 0. It has successfully passed tests in accordance with DIN 19573 standards for pH 0 and pH 1.
solidian GRID enables the design of thinner concrete layers (greater than 20mm) without requiring additional concrete cover for reinforcement protection. This reduction in material usage leads to lower resource consumption and a diminished environmental footprint, supporting more sustainable construction practices.
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