Starch Gelatinization

Starch Sync

Molecular Expansion. Tracking the transition from crystalline granules to a viscous hydrogel. New Horizons monitors the "Gelation Threshold" to ensure optimal sauce stability.

• 🌽 Corn: 62°C - 80°C (Opaque).
• 🥔 Potato: 58°C - 65°C (Clear).
• 🍞 Wheat: 60°C - 85°C (Structural).

Mixture Viscosity

Fluid Resistance Mapping. Quantifying the internal friction of a culinary solution. New Horizons monitors the "Viscosity Constant" to ensure perfect textural consistency.

• 💧 Low Viscosity: High-velocity laminar flow.
• 🍯 High Viscosity: High molecular friction.
• 🌡️ Thermal Delta: Heat-induced thinning.

Inert Phase

Crystalline Stability. Thermal energy is below the activation threshold. Granules remain in a high-density, non-absorbent state. New Horizons monitors the "Kinetic Delta" before expansion begins.

• ❄️ Thermal: < 50°C (Inactive).
• 🛑 Expansion: 0% Volume Increase.
• ⏳ State: Unstable Suspension.

Swelling Phase

Hydrogen Dissociation. Thermal energy has breached the crystalline barrier. Water enters the matrix, causing rapid volumetric expansion. New Horizons monitors the "Swelling Constant" as the mixture gains viscosity.

• 🔥 Thermal: > 60°C (Active).
• 📈 Expansion: Exponential Volume Increase.
• 🧪 State: Amorphous Transition.

Peak Phase

Amylose Entanglement. Granules have reached maximum volumetric capacity. Molecular leaching creates a high-resistance hydrogel. New Horizons monitors the "Viscosity Peak" for optimal sauce suspension.

• 🔥 Thermal: 75°C - 85°C (Peak).
• 🕸️ Mechanism: Amylose Leaching.
• 🥣 State: Saturated Hydrogel.

Rupture Phase

Network Fragmentation. Thermal energy has exceeded the structural limit. Granules burst, and the amylose web collapses. New Horizons monitors the "Breakdown Delta" to prevent thinning.

• 🔥 Thermal: > 90°C (Breakdown).
• 💥 Mechanism: Granular Rupture.
• 📉 Trend: Viscosity Decrease.