Materials Chemistry

Civil engineers work with a vast array of materials. Understanding their chemical composition and reactions is essential for durability, strength, and sustainability.

Polymers and Plastics

Polymers are large molecules made of repeating structural units (monomers).

Thermoplastics: Soften when heated and harden when cooled (e.g., PVC pipes, Polyethylene). Can be recycled.
Thermosets: Chemical cross-linking prevents melting; they decompose at high heat (e.g., Epoxies, Polyurethanes). Stronger but brittle.
Elastomers: Highly elastic polymers (e.g., Rubber, Neoprene bridge bearings).

Nanomaterials

Materials with structures at the nanoscale (1-100 nm).

Carbon Nanotubes (CNTs): Extremely high tensile strength and conductivity. Added to concrete for reinforcement.
Titanium Dioxide ( $TiO_2$ ): Used in self-cleaning concrete (photocatalysis breaks down pollutants).

Cement and Concrete Chemistry

Portland cement is the most common binder.

Major Compounds:
- Tricalcium Silicate ( $C_3S$ ): Early strength.
- Dicalcium Silicate ( $C_2S$ ): Long-term strength.
- Tricalcium Aluminate ( $C_3A$ ): Flash set, high heat.
- Tetracalcium Aluminoferrite ( $C_4AF$ ): Color (grey).

Hydration Reaction

The reaction between cement and water that causes setting and hardening.

Exothermic process (releases heat).
Forms Calcium Silicate Hydrate (C-S-H) gel, the main binder. $2C_3S + 6H_2O \rightarrow C_3S_2H_3 + 3Ca(OH)_2$

Crystal Structures in Metals

Metals have crystalline structures that determine their mechanical properties.

Body-Centered Cubic (BCC): Iron (alpha), Chromium. Strong but less ductile.
Face-Centered Cubic (FCC): Aluminum, Copper, Iron (gamma). More ductile.
Hexagonal Close-Packed (HCP): Magnesium, Zinc, Titanium. Brittle.

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