Graphene Conductive Masterbatch
Relying on its proprietary graphene modification technology, QS has developed high-performance conductive masterbatches for 3D printing. This material breaks through the limitations of traditional materials between conductivity and structural performance, with a stable resistivity of 10-3-10-5 Ω·cm.
Graphene Antistatic Masterbatch
Based on its proprietary graphene modification technology, QS has developed high-performance antistatic masterbatches suitable for 3D printing. This material overcomes the limitations of traditional materials in terms of conductivity and structural properties, with a stable resistivity of 10⁴-106 Ω·cm.
Graphene UV-Resistant Masterbatch
y integrating light stabilizers, ultraviolet absorbers, and graphene, QS has built a triple protection system for synergistic UV resistance. This masterbatch can provide long-term structural UV protection for 3D printed products, with a performance level of 4-5, effectively resisting aging and performance degradation caused by long-term
Graphene High-Temperature-Resistant Masterbatch
hrough the nano-reinforcement effect of graphene, QS has successfully developed a new generation of high-temperature-resistant 3D printing masterbatches. The addition of graphene significantly increases the heat distortion temperature of the material, ensuring its dimensional stability in high-temperature environments
Graphene Low-Temperature-Resistant Masterbatch
Utilizing the unique two-dimensional lamellar structure of graphene, QS has successfully developed a new generation of low-temperature-resistant 3D printing masterbatches. The introduction of graphene effectively inhibits the freezing of molecular chain segments of the material at ultra-low temperatures
Graphene Reinforced & Toughened Masterbatch
Through the nano-composite technology of graphene and fiber synergistic reinforcement, QS has successfully developed a new generation of reinforced and toughened 3D printing masterbatches. The introduction of graphene effectively constructs a stable multi-dimensional reinforcement network in the polymer matrix
Graphene Carbon-Sequestering Masterbatch
y combining graphene technology with carbon sequestration processes, QS has pioneered the development of 3D printing masterbatches with carbon-negative potential. This material can not only permanently solidify carbon dioxide (with a sequestration capacity of approximately 308 grams per kilogram) but also endow the products with excellent outdoor durability through the graphene reinforcement system, effectively resisting ultraviolet radiation, wear, and hydrolysis aging.
Graphene Flame-Retardant Masterbatch
By combining graphene composite flame retardants with intrinsic flame-retardant polymer systems, QS has developed a new generation of flame-retardant 3D printing masterbatches. The addition of graphene not only exerts a synergistic flame-retardant effect but also endows the material with excellent thermal stability and mechanical properties.