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Meta Description: Compare AISI 1018 vs 1020 carbon steel: chemical composition, mechanical properties, machinability, weldability, price per ton, and supplier selection guide for procurement managers.


When sourcing carbon steel from China, two of the most commonly ordered low-carbon grades are AISI 1018 and AISI 1020. At first glance, these two grades look nearly identical — both contain approximately 0.18–0.23% carbon and share similar mechanical properties. But for procurement managers, engineers, and quality inspectors, the subtle differences between 1018 and 1020 can significantly impact machining performance, welding quality, and total project cost.

This guide breaks down the 7 critical differences between AISI 1018 and 1020 carbon steel, including chemical composition, mechanical properties, machinability ratings, weldability, formability, and typical FOB China pricing. We also cover equivalent grades across JIS, DIN, and GB standards so you can cross-reference when sourcing from multiple markets.


1. Chemical Composition: What Separates 1018 from 1020

While both grades fall under the low-carbon steel category, the difference in carbon and manganese content creates measurable performance gaps.

ElementAISI 1018AISI 1020Impact
Carbon (C)0.15–0.20%0.18–0.23%Higher C in 1020 → slightly harder, stronger
Manganese (Mn)0.60–0.90%0.30–0.60%Higher Mn in 1018 → better hardenability, wear resistance
Phosphorus (P)≤ 0.040%≤ 0.040%Same — impurity control
Sulfur (S)≤ 0.050%≤ 0.050%Same — machinability factor
Iron (Fe)BalanceBalance

Key insight for buyers: AISI 1018 has nearly double the manganese of 1020. Manganese improves hardenability and tensile strength without significantly reducing ductility. This makes 1018 marginally stronger and more wear-resistant than 1020, despite having a slightly lower maximum carbon content.


2. Mechanical Properties: Tensile, Yield, and Hardness

The mechanical property differences between 1018 and 1020 are most visible in cold-drawn condition, which is the typical delivery state for both grades.

PropertyAISI 1018 (Cold Drawn)AISI 1020 (Cold Drawn)AISI 1020 (Hot Rolled)
Tensile Strength (MPa)440–490420–470380–440
Yield Strength (MPa)370–420350–390210–250
Elongation (%)15–2015–2225–36
Hardness (HB)126–163121–149111–137
Reduction of Area (%)40–5045–5550–60

What this means for your order:


3. Machinability: Which Grade Cuts Better

Machinability is a top concern for CNC shops and component manufacturers. Here’s the practical comparison:

Machining FactorAISI 1018AISI 1020
Machinability Rating (AISI 1212 = 100%)~70%~65–68%
Surface Finish QualityExcellentVery Good
Chip FormationShort, consistentSlightly gummy
Tool Wear RateModerateModerate-Low
Recommended Cutting Speed (m/min)80–11075–100

Buyer’s takeaway: AISI 1018 machines slightly better than 1020 due to its higher manganese content and more favorable chip-breaking characteristics. For high-volume CNC production, 1018 often delivers 5–10% better throughput. However, the difference is small enough that either grade works well for most machining applications — the choice should be driven by final mechanical requirements, not machinability alone.


4. Weldability and Formability Comparison

Both grades belong to the low-carbon category and exhibit excellent weldability. Carbon equivalent (CE) values for both are well below the 0.40 threshold where preheating becomes necessary.

FactorAISI 1018AISI 1020
Weldability RatingExcellentExcellent
Preheating RequiredNo (sections < 25mm)No (sections < 25mm)
Post-Weld Heat TreatmentOptionalOptional
Cold Forming / BendingVery GoodExcellent
Deep Drawing SuitabilityGoodExcellent
Forging Temperature Range900–1250°C870–1250°C

Critical note for buyers: When your final product requires extensive forming or deep drawing, specify AISI 1020. Its lower manganese content and slightly lower strength make it more forgiving during cold forming operations. For welded assemblies where post-weld machining is planned, 1018’s higher strength can be an advantage.


5. Surface Condition and Dimensional Tolerance

How you specify surface finish and tolerance directly affects delivered price. Here’s what Chinese mills and processors typically offer:

SpecificationAISI 1018 Cold DrawnAISI 1020 Cold DrawnAISI 1020 Hot Rolled
Surface Roughness (Ra)0.8–1.6 µm0.8–1.6 µm3.2–6.3 µm
Diameter Tolerance (round bar)h9–h11h9–h11±0.4–0.8 mm
Straightness0.5–1.0 mm/m0.5–1.0 mm/m2–4 mm/m
Scale / Oxide LayerNoneNonePresent (removable)

Procurement tip: If your component requires a bright, scale-free surface without additional processing, always specify cold-drawn (CD) condition for either grade. Hot-rolled 1020 will require pickling, shot blasting, or machining to remove the mill scale — adding $15–30/ton to your total processing cost.


6. Price Comparison: FOB China (2025–2026)

Pricing varies by mill, order volume, and processing state. Below are approximate FOB China price ranges for reference:

Product FormAISI 1018 (USD/ton FOB)AISI 1020 (USD/ton FOB)
Hot Rolled Round Bar (20–100mm)520–580500–550
Cold Drawn Round Bar (10–80mm)620–680590–650
Cold Rolled Steel Plate (1.5–6mm)640–700610–670
Hot Rolled Steel Plate (6–50mm)530–590510–560

Why 1018 costs more: The higher manganese content in 1018 requires more precise furnace chemistry control and slightly more expensive alloying additions. The price premium is typically $20–50/ton — modest but worth factoring into large-volume orders.

Order volume tipping point: For orders above 100 metric tons, many Chinese mills will produce either grade at nearly the same price. The cost difference becomes negligible compared to logistics and processing costs.


7. Equivalent Grades: Cross-Referencing Across Standards

When sourcing from multiple countries or specifying to different standards, equivalency tables are essential:

Standard1018 Equivalent1020 Equivalent
JIS (Japan)S15CK / S17CS20C / S22C
DIN (Germany)C15 / 1.0401C22 / 1.0402
GB (China)15# / 15Mn20# / 20Mn
EN (Europe)C15E / C16EC22E
BS (UK)080A15070M20

Important for China sourcing: When ordering from Chinese mills, specify the GB grade (15# for 1018 equivalent, 20# for 1020 equivalent) alongside the AISI designation. This ensures the mill’s quality control team uses the correct internal specification and avoids confusion during production.


Which Grade Should You Choose? Decision Checklist

Use this quick checklist to determine whether 1018 or 1020 is right for your application:

Choose AISI 1018 When:

Choose AISI 1020 When:


FAQ: 1018 vs 1020 Carbon Steel

Q1: Can AISI 1018 and 1020 be used interchangeably?

In many applications, yes — but not always. For simple structural components, brackets, and non-critical parts, the two grades are functionally interchangeable. For precision-machined components, heat-treated parts, or deep-drawn products, the differences in strength, machinability, and formability become significant. Always consult your engineering specification before substituting.

Q2: Which grade is better for carburizing?

Both can be carburized, but 1018 generally produces better case depth uniformity because of its higher manganese content, which promotes carbon diffusion. The resulting case hardness is similar (HRC 58–62 after quenching), but 1018 tends to achieve target case depth slightly faster.

Q3: What’s the typical lead time for 1018 vs 1020 from Chinese mills?

Both grades are mass-produced commodity products. Standard lead times are 15–30 days for stock sizes (10–80mm round bar, 1.5–12mm plate). Non-standard sizes may require 30–45 days. 1020 has slightly wider stock availability due to higher production volumes globally.

Q4: Do I need to specify grain size or inclusion content?

For standard applications, no. For critical components (automotive, pressure vessels), specify fine grain practice (ASTM grain size 5 or finer) and inclusion ratings per ASTM E45. This typically adds $10–20/ton to the base price but significantly improves fatigue life.

Q5: How do I verify that delivered material is actually 1018 and not 1020?

Request a Mill Test Certificate (MTC) per EN 10204 3.1 with every shipment. The MTC must show actual chemical composition (not just nominal) from the cast analysis. For critical orders, arrange third-party PMI (Positive Material Identification) inspection using handheld XRF or OES spectrometers before shipment.


Source Your 1018 & 1020 Carbon Steel from a Trusted China Supplier

At Huaxia Steel, we supply both AISI 1018 and 1020 carbon steel in round bar, flat bar, plate, and custom-cut dimensions. Every shipment includes a full EN 10204 3.1 Mill Test Certificate, and we offer third-party inspection (SGS, Bureau Veritas, TÜV) upon request.

Our technical team can help you select the right grade, specify the correct delivery condition (hot-rolled, cold-drawn, or annealed), and arrange ocean freight to your destination port.

→ Request a Quote for AISI 1018 & 1020 Carbon Steel

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