Extracting Tin from Cassiterite — The Missing Ingredient
Tin was the rarest ingredient of the Bronze Age — entire trade networks spanning thousands of kilometres existed solely to transport it. Learn to smelt cassiterite (SnO₂) into pure tin. This is surprisingly easy (tin smelts at only 232°C), yet its scarcity shaped the geopolitics of the ancient world.
التعليمات
Prerequisite: Making Charcoal
Prerequisite: Making Charcoal
You need charcoal for tin smelting fuel.
مخطط متطلب سابق
Making Charcoal — The First Chemical Process
The foundation of all metallurgy. Learn to convert wood into charcoal using a pit kiln — the same technique used since 30,000 BCE. Charcoal burns hotter than wood (up to 1100°C vs 600°C), enabling every metal smelting process that follows. Without this blueprint, the Bronze Age never happens.
Prerequisite: Building a Clay Kiln
Prerequisite: Building a Clay Kiln
You need a kiln for the tin smelting process.
مخطط متطلب سابق
Building a Clay Kiln — The First Furnace
A kiln focuses and retains heat, transforming a campfire into an industrial tool. This design reaches 1100°C — enough to smelt copper, cast bronze, and fire pottery. Every civilization built kilns before they built cities.
The Chemistry of Tin Reduction
The Chemistry of Tin Reduction
The Reaction
SnO₂ + 2C → Sn + 2CO₂ (at ~900°C)
Carbon from charcoal reduces tin oxide to metallic tin. This is chemically simpler than copper smelting — cassiterite is a simple binary oxide.
Why It's Easy to Smelt
- Reduction temperature: ~900°C (well within kiln range)
- Tin melts at only 232°C — it liquefies immediately upon reduction
- Tin is dense (7.3 g/cm³) — it separates cleanly from slag by gravity
- Unlike copper, tin doesn't readily re-oxidize at smelting temperatures
Ore Preparation
- Crush cassiterite to coarse sand (2-5mm). Tin oxide is extremely hard — this takes effort.
- Wash crushed ore in a stream or pan (like gold panning). Cassiterite is heavy (density 6.8-7.1) — it concentrates just like gold.
- Ancient tin miners used streaming — washing alluvial deposits in wooden troughs to separate heavy cassiterite from lighter sand.
Smelting
Smelting
Kiln Setup
- Bring kiln to full temperature with charcoal and bellows (~1000°C).
- Pre-heat crucible in the kiln for 10 minutes.
- Layer in the crucible: charcoal → crushed cassiterite → charcoal → cassiterite → charcoal (like a sandwich).
- The charcoal layers ensure intimate contact between carbon and ore for efficient reduction.
The Smelt
- Maintain bellows operation for 1-2 hours. Tin smelts faster than copper.
- Watch for tin droplets collecting at the bottom of the crucible — they're bright and silvery.
- Add more charcoal to the kiln as needed to maintain temperature.
- After 2 hours, the reduction should be complete.
Recovery
- Carefully remove the crucible. The tin has pooled at the bottom under a layer of slag.
- Pour the contents onto a flat stone. The heavy tin will run out first, followed by lighter slag.
- Alternatively, let it cool in the crucible and break the slag off the solidified tin button.
Yield
Cassiterite is ~78.8% tin by weight. Expect 60-75% recovery with primitive methods. 1kg ore → 450-600g tin.
Properties and What's Next
Properties and What's Next
Identifying Your Tin
- Appearance: Bright silvery-white, with a slight bluish tint
- Sound: Bending a tin bar produces a distinctive "tin cry" — a crackling sound caused by crystal twinning
- Softness: Very soft — easily scratched with a fingernail
- Melting: Melts easily over a campfire (232°C)
Why Tin Alone Isn't Useful
Pure tin is too soft for tools. It bends easily and has poor edge retention. But when you add just 10-12% tin to copper, something remarkable happens — the resulting alloy (bronze) is harder than either metal alone, casts better, and holds a sharper edge than pure copper.
This discovery — that mixing two soft metals creates a hard alloy — was the insight that launched the Bronze Age. See Blueprint 07: Alloying Bronze.
المواد
- •Cassiterite ore (SnO₂) - 1 kgعنصر نائب
- •Charcoal - 8 kgsعنصر نائب
- •Crucible - 1 pieceعنصر نائب
- •Tin (Reference) - 1 referenceعنصر نائب
مواد المخططات المرتبطة
CC0 ملكية عامة
هذا المخطط مُصدر بموجب CC0. يحق لك نسخه وتعديله وتوزيعه واستخدامه لأي غرض، دون طلب إذن.
ادعم الصانع بشراء منتجات عبر مخططه حيث يكسب عمولة الصانع يحددها البائعون، أو أنشئ نسخة جديدة من هذا المخطط وضمّنه كرابط في مخططك لمشاركة الإيرادات.