Chapter 8: Metallurgy

Chemistry | Metal Extraction | Refining Processes | Complete guide to metallurgy with extraction methods and applications

1 Introduction

Metallurgy is the branch of science that deals with the extraction of metals from their ores and their refinement to obtain pure metals.

Metals are crucial materials used in construction, manufacturing, electronics, transportation, and daily life due to their properties like strength, conductivity, and malleability.

2 Occurrence of Metals

Metals occur in nature in different forms:

Native Metals

Found in pure, uncombined state.

  • Gold (Au)
  • Silver (Ag)
  • Platinum (Pt)
  • Copper (Cu) - rarely

Ores

Compounds from which metals can be extracted.

  • Hematite (Fe₂O₃) - Iron
  • Bauxite (Al₂O₃·2H₂O) - Aluminium
  • Copper pyrite (CuFeS₂) - Copper
  • Zinc blende (ZnS) - Zinc

Gangue: Unwanted earthy impurities present in ores that must be removed during extraction.

3 Steps in Metallurgy

The extraction of metals generally involves the following steps:

3.1

Concentration of Ore

Removal of impurities (gangue) from ore.

Gravity Separation

Based on density differences between ore and gangue.

Froth Flotation

Used for sulphide ores. Ore particles attach to froth and are separated.

Magnetic Separation

Used for magnetic ores like magnetite (Fe₃O₄).

3.2

Extraction of Metal from Concentrated Ore

Roasting

Heating in presence of air for sulphide ores to convert to oxide.

2ZnS + 3O₂ → 2ZnO + 2SO₂

Calcination

Heating in absence of air for carbonate ores to remove CO₂.

CaCO₃ → CaO + CO₂
3.3

Reduction of Metal Oxides

Reduction with Carbon

For less reactive metals like Zn, Fe, Pb.

ZnO + C → Zn + CO

Electrolytic Reduction

For highly reactive metals like Na, K, Al, Ca.

Electric current is passed through molten ore.

3.4

Refining of Metals

Process of removing impurities from extracted metal.

Distillation

For metals with low boiling points (e.g., Zn, Hg).

Electrolytic Refining

For high purity (e.g., Cu, Ag, Au).

Liquation

For metals with low melting points (e.g., Sn, Pb, Bi).

4 Reactivity Series of Metals

Metals are arranged in decreasing order of reactivity:

K > Na > Ca > Mg > Al > Zn > Fe > Pb > Cu > Ag > Au

Importance of Reactivity Series:

  • Predicts extraction method (reactive metals require electrolysis)
  • Predicts displacement reactions (more reactive metals displace less reactive ones)
  • Determines corrosion tendency
  • Guides selection of reducing agents

5 Extraction of Some Common Metals

Extraction of Aluminium

Ore: Bauxite (Al₂O₃·2H₂O)

Process: Bayer's process for purification + Electrolytic reduction

Special Feature: Highly reactive → cannot be reduced by carbon

2Al₂O₃ → 4Al + 3O₂ (electrolysis)

Extraction of Iron

Ore: Hematite (Fe₂O₃), Magnetite (Fe₃O₄)

Process: Blast furnace reduction with coke

Special Feature: Flux (limestone) removes impurities as slag

Fe₂O₃ + 3CO → 2Fe + 3CO₂

Extraction of Copper

Ore: Copper pyrite (CuFeS₂)

Process: Roasting → Cu₂S → Smelting → Electrolytic refining

Special Feature: Requires multiple purification steps

6 Alloy Formation

Alloy: A homogeneous mixture of a metal with other metals or non-metals to improve properties.

Steel
Fe + C (0.1-1.5%)
Strong, hard

Brass
Cu + Zn
Corrosion resistant

Bronze
Cu + Sn
Hard, durable

Solder
Pb + Sn
Low melting point

Stainless Steel
Fe + Cr + Ni
Rust resistant

Duralumin
Al + Cu + Mg + Mn
Light, strong

Purpose of Alloys:

  • Increased strength and hardness
  • Improved corrosion resistance
  • Enhanced appearance
  • Lower melting point (for some alloys)
  • Reduced cost compared to pure metals

7 Corrosion

Corrosion: Gradual destruction of metals due to chemical reaction with environment (oxygen, water, acids).

4Fe + 3O₂ + xH₂O → 2Fe₂O₃·xH₂O (Rust)

Example: Rusting of iron - a redox reaction where iron oxidizes to form hydrated iron(III) oxide.

Prevention of Corrosion

Painting

Forms protective coating

Oiling/Greasing

Prevents contact with air and moisture

Galvanization

Coating with zinc (Zn)

Alloying

e.g., Stainless steel

Electroplating

Coating with another metal

Cathodic Protection

Sacrificial anode method

Important Points for Examination

  • Know all steps in metallurgy and the reason for each step
  • Distinguish clearly between calcination and roasting
  • Identify extraction method based on position in reactivity series
  • List common alloys, their compositions, and uses
  • Explain corrosion process and various prevention methods
  • Write balanced chemical equations for extraction processes
  • Understand the role of flux and slag formation
  • Memorize the reactivity series order