Martensitic stainless steel is a type of stainless steel that can have its properties changed through heat treatment processes such as quenching and tempering, making it a hardenable stainless steel.
Type Cr13, also known as 1Cr13, 2Cr13, 3Cr13 or 4Cr13, is a commonly used type that offers general corrosion resistance in environments such as atmospheric conditions, seawater and nitric acid. Additionally, it provides the necessary strength for various components.
Cr13 is widely used in various applications.
What distinguishes 1Cr13 from 2Cr13? And what distinguishes the four similar Cr13 classes from each other?
This article presents a comparison and reference of the chemical composition, heat treatment system and final mechanical properties of four grades of stainless steel.
| Chemical composition | ||||
| Standard | GB/T1220-2007 Stainless Steel Bars | |||
| Steel Grade | 1Ch13 | 2Ch13 | 3Ch13 | 4Ch13 |
| W | 0.08~0.15 | 0.16~0.25 | 0.26~0.35 | 0.36~0.45 |
| Yes | ≤1.00 | ≤1.00 | ≤1.00 | ≤0.60 |
| Mn | ≤1.00 | ≤1.00 | ≤1.00 | ≤0.80 |
| P | ≤0.040 | ≤0.040 | ≤0.040 | ≤0.040 |
| s | ≤0.030 | ≤0.030 | ≤0.030 | ≤0.030 |
| No | (<0.60) | (≤0.60) | (≤0.60) | (≤0.60) |
| Cr | 11.5~13.5 | 12.0~14.0 | 12.0~14.0 | 12.0~14.0 |
| Heat Treatment Schedule | |||
| Note | girdling | Tempera | Temperament |
| 1Ch13 | Slow cooling to 800-900℃ or fast cooling to about 750℃ | 950~1000℃ oil cooling | 700 ~ 750 ℃ rapid cooling |
| 2Ch13 | oil cooling 920 ~ 980 ℃ | 600 ~ 750 ℃ rapid cooling | |
| 3Ch13 | oil cooling 920 ~ 980 ℃ | 600 ~ 750 ℃ rapid cooling | |
| 4Ch13 | oil cooling 1050 ~ 1100 ℃ | 200~300℃ rapid cooling | |
Mechanical property
| Note | 1Ch13 | 2Ch13 | 3Ch13 | 4Ch13 |
| Annealing hardness | ≤200 | ≤223 | ≤235 | ≤235 |
| After quenching and tempering | 1Ch13 | 2Ch13 | 3Ch13 | 4Ch13 |
| Specified non-proportional extension force R po.2 /(N/mm2) | ≥345 | ≥440 | ≥540 | – |
| Tensile strength R i /(N/mm2) | ≥540 | ≥640 | ≥735 | – |
| Elongation after fracture A/% | ≥22 | ≥20 | ≥8 | – |
| Reduction of area Z/% | ≥55 | ≥50 | ≥35 | – |
| Impact absorption energy A ku2 /J | ≥78 | ≥63 | ≥24 | – |
| HBW hardness | ≥159 | ≥192 | ≥217 | HRC50 |
The difference between 1Cr13 and 2Cr13 lies in their chemical composition, mechanical properties and heat treatment system. The table shows that they differ in these aspects.
The average chromium content in all four grades (1Cr13, 2Cr13, 3Cr13 and 4Cr13) is more than 12%, which accounts for their basic corrosion resistance. As the carbon content increases from 1Cr13 to 4Cr13, the strength also increases, but the plasticity and toughness decrease accordingly, as reflected by the heat treatment mechanical property data.
So which is harder, 2Cr13 or 1Cr13? 2Cr13 is harder than 1Cr13 and 3Cr13 is harder than 2Cr13.
Regarding the heat treatment system, 1Cr13, 2Cr13 and 3Cr13 can be considered in one category, while 4Cr13 is quite different. The metallographic structure and heat treatment method are different due to the varying carbon content.
Therefore, it is important to consider these factors when choosing a replacement material.
