Bridging the gap between polymers and ceramics, IOTA 9108 liquid precursor delivers unmatched versatility—serving as both high-performance resin and 1500℃-stable SiCN ceramic source. Its unique Si-N chemistry enables breakthroughs in aerospace, energy, and microelectronics.
Material Revolution
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High-Yield Ceramic Conversion
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85% ceramic yield at 800-1000℃, producing:
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<0.1mg/cm²·h oxidation rate @1500℃
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3.2g/cm³ density with <3% porosity
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Superior corrosion resistance vs. Al₂O₃
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Processing Advantages
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<500cP viscosity: Enables 3D printing/infiltration (0.1mm pore filling)
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10-min curing: UV/thermal/catalytic options for flexible production
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15MPa adhesion: Direct metal/ceramic bonding without surface treatment
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Dual-Mode Performance
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As resin:
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280℃ HDT, k=3.8 @1MHz, UL94 V-0
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As ceramic precursor:
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18W/m·K thermal conductivity
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ΔT>1000℃ thermal shock resistance
Industry Transformations
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Spacecraft: CMCs with 30% weight reduction for re-entry shields
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Nuclear: Molten metal-resistant coatings (5X lifespan)
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5G Electronics: Low-loss (<0.005) SiCN substrates
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Turbines: Oxidation barriers increasing service temp by 200℃
IOTA 9108: Where Polymer Meets Ceramic, Performance Meets Possibility!
Room termperature curing polysilazane, pls check
IOTA 9150, IOTA 9150K.
High termperature curing polysilazane, pls check
IOTA 9108,
IOTA 9118.
