NanoCORE Technology
Where Material Science Meets Architectural Performance
By engineering material behavior at the microscopic level, NanoCORE enables consistent quality, strength, and long-term reliability.
What is NanoCORE Technology
What is NanoCORE Technology
What is NanoCORE Technology
The Core Technology Behind Duratech
The Core Technology Behind Duratech
The Core Technology Behind Duratech
NanoCORE Technology is the core technology used in Duratech’s engineered stone production. It applies principles of nano-engineering, high pressure, and precise temperature control to form surfaces with a dense, stable, and consistent structure.
NanoCORE is not merely a manufacturing method, but the foundation that ensures material quality is built from its most fundamental level.
NanoCORE Technology is the core technology used in Duratech’s engineered stone production. It applies principles of nano-engineering, high pressure, and precise temperature control to form surfaces with a dense, stable, and consistent structure.
NanoCORE is not merely a manufacturing method, but the foundation that ensures material quality is built from its most fundamental level.
NanoCORE Technology is the core technology used in Duratech’s engineered stone production. It applies principles of nano-engineering, high pressure, and precise temperature control to form surfaces with a dense, stable, and consistent structure.
NanoCORE is not merely a manufacturing method, but the foundation that ensures material quality is built from its most fundamental level.
Why NanoCORE Matters
Why NanoCORE Matters
Why NanoCORE Matters
Beyond Appearance, Toward Performance
Beyond Appearance, Toward Performance
Beyond Appearance, Toward Performance
In modern architectural applications, visual appeal alone is not enough. Materials are expected to remain stable, durable, and reliable over time.
NanoCORE was developed to address these demands.
By creating a more compact and controlled internal structure, the technology helps reduce porosity and maintain consistent performance—both aesthetically and structurally.
In modern architectural applications, visual appeal alone is not enough. Materials are expected to remain stable, durable, and reliable over time.
NanoCORE was developed to address these demands.
By creating a more compact and controlled internal structure, the technology helps reduce porosity and maintain consistent performance—both aesthetically and structurally.
In modern architectural applications, visual appeal alone is not enough. Materials are expected to remain stable, durable, and reliable over time.
NanoCORE was developed to address these demands.
By creating a more compact and controlled internal structure, the technology helps reduce porosity and maintain consistent performance—both aesthetically and structurally.
How NanoCORE Works
How NanoCORE Works
How NanoCORE Works
Engineering Natural Processes
Engineering Natural Processes
Engineering Natural Processes
NanoCORE works by replicating and accelerating natural geological processes through material engineering. Processes that would normally take thousands of years are recreated using intense pressure and precise temperature regulation.
This approach allows engineered stone to be formed with predictable characteristics, independent of the natural variations found in raw stone formation.
NanoCORE works by replicating and accelerating natural geological processes through material engineering. Processes that would normally take thousands of years are recreated using intense pressure and precise temperature regulation.
This approach allows engineered stone to be formed with predictable characteristics, independent of the natural variations found in raw stone formation.
NanoCORE works by replicating and accelerating natural geological processes through material engineering. Processes that would normally take thousands of years are recreated using intense pressure and precise temperature regulation.
This approach allows engineered stone to be formed with predictable characteristics, independent of the natural variations found in raw stone formation.
Microscopic Precision, Macroscopic Strength
Controlled at the Particle Level
At a microscopic level, NanoCORE precisely controls particle distribution and bonding. This results in surfaces with high density and low porosity.
This particle-level precision directly contributes to structural strength, dimensional stability, and long-term durability across a wide range of architectural applications.
Manufacturing Consistency with SACMI CONTINUA+
Manufacturing Consistency with SACMI CONTINUA+
Manufacturing Consistency with
SACMI CONTINUA+
Uniform by Design
Uniform by Design
Uniform by Design
NanoCORE is integrated with SACMI CONTINUA+ technology, which compacts multiple minerals continuously along a conveyor system. This process ensures uniform thickness and optimal density across every slab.
Such consistency is essential for visual continuity, fabrication accuracy, and reliable performance in finished Duratech surfaces.
NanoCORE is integrated with SACMI CONTINUA+ technology, which compacts multiple minerals continuously along a conveyor system. This process ensures uniform thickness and optimal density across every slab.
Such consistency is essential for visual continuity, fabrication accuracy, and reliable performance in finished Duratech surfaces.
NanoCORE is integrated with SACMI CONTINUA+ technology, which compacts multiple minerals continuously along a conveyor system. This process ensures uniform thickness and optimal density across every slab.
Such consistency is essential for visual continuity, fabrication accuracy, and reliable performance in finished Duratech surfaces.
Sustainability as a Technological Outcome
Efficiency Without Compromise
NanoCORE and SACMI CONTINUA+ are designed with process efficiency in mind. Reduced energy consumption, minimized production waste, and the recycling of manufacturing by-products are integral parts of the system.
Sustainability within Duratech is achieved as a result of precise and efficient technology—without compromising material quality.
Sustainability as a Technological Outcome
Efficiency Without Compromise
NanoCORE and SACMI CONTINUA+ are designed with process efficiency in mind. Reduced energy consumption, minimized production waste, and the recycling of manufacturing by-products are integral parts of the system.
Sustainability within Duratech is achieved as a result of precise and efficient technology—without compromising material quality.
Sustainability as a Technological Outcome
Efficiency Without Compromise
NanoCORE and SACMI CONTINUA+ are designed with process efficiency in mind. Reduced energy consumption, minimized production waste, and the recycling of manufacturing by-products are integral parts of the system.
Sustainability within Duratech is achieved as a result of precise and efficient technology—without compromising material quality.
Duratech Latest Collection
Duratech Latest Collection
Duratech Latest Collection
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Discover our curated
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Asia Regional Office
42 Upper Cross St,
Singapore 050034
© 2025 Duratech Surfaces All Right Reserved
Asia Regional Office
42 Upper Cross St,
Singapore 050034
© 2025 Duratech Surfaces All Right Reserved
Asia Regional Office
42 Upper Cross St,
Singapore 050034
© 2025 Duratech Surfaces All Right Reserved