Ultimate dense particle gradation.
The design ot G·ONE Materlals is rooted in the maximum packing density theory. ihrough precise calculationNe combine solid particles of different particle sizes in an optimal ratio to achieve "seamless flina". the voidspetween milimeter-grade aggregates are filled with micron-grade cement, fly ash and other materials. while thejaps among micron-grade particles are further packed with finer submicron-arade silica fume, Moreover, siicajume can react with cement hydration products to form a denser gel, realizing secondary reinforcement. Fromthe macro to the micro scale, every inch of space is utilized efficiently, laying a structural foundation forexceptional performance.
DualEmpowerment of High Pressure & Vacuum
To translate the theoretical compactness into practical reallty, we exclusively adopt the key process of a 1200 neavy-duty press combined with svnchronous vacuum extraction in production.
1200THigh-Pressure Forming Process
A pressure ot over 100 megapascals (MPa) is exerted to forcibly drive the orderly movement and preciseoositioning of multi-grade solid particles, expel the entrapped air in the particle mixture, and realize the initiaultimate densification of the material.
Synchronous Vacuum Extraction Process
The entrained alr bubbles are continuously discharged in real time during the high-pressure compactio process, which can effectivelv eliminate the internal open pores and inherent micro-defects of the blank.
Synchronous Vacuum Extraction
We extract entrained air in real time during high-pressure pressing, effectively eliminating internal voids ano micro-flaws.
The integration of theoretical design and manufacturing technology enables the materlal to reach an ideal densestate with near "zero defects" during the forming process.In the end, G·ONE Materials exhibits outstandingbhysical and mechanical performance that is vastly superior to traditional buildina materials, offering adependable assurance for all kinds of stringent engineering applications.
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