ABOUT ATIPA
Enhancing the beauty and durability of our facades with the power of technology. ATIPA Modified Clay Material offer a unique solution for building envelopes, providing improved thermal insulation and resistance to weathering.
Our vision is to be the preeminent provider of innovative and sustainable premium modified clay material solutions for facade and cladding, making buildings beautiful, functional, and sustainable.
Our mission is to provide high-quality and sustainable modified clay material solutions that meet the diverse needs of our customers. We strive to constantly innovate and improve our products, processes, and services to create value for our customers and to contribute to a greener and more sustainable future.
We are committed to providing exceptional customer service and support, and to being a responsible and ethical corporate citizen.
WHY ATIPA?
Because ATIPA are made based on Modified Clay, then what is Modified Clay? Modified clay materials are materials that are made by modifying the properties of natural clay through various processes such as chemical, physical, or thermal treatment.
Some of the common features and properties of modified clay materials include:
Increased Porosity
Modified clay materials often have higher porosity than natural clay,
which can improve the material’s ability to absorb and retain liquids.
Improved Thermal Stability
Modified clays can have increased thermal stability, which
makes them more resistant to thermal degradation.
Increased Mechanical Strength
Modified clay materials often have improved mechanical properties such as increased strength, toughness, and hardness compared to natural clay.
Enhanced Chemical Properties
Modified clays can have enhanced chemical properties, such as improved acid resistance, hydrophobicity, and chemical stability.
Increased Adsorption Capacity
ATIPA can have increased adsorption capacity, making them useful for removing impurities and contaminants from liquids and gases
Improved Fire Resistance
Modified clays can have improved fire resistance, which makes them suitable for use in building materials, insulation materials, and other applications where fire resistance is important.
