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Hardness Ratings (HRC) in Tool and Die Steel
Virat Steels | India’s Leading Tool and Die Steel Supplier
Virat Steels | India’s Leading Tool and Die Steel Supplier
If you’ve ever looked at a tool steel datasheet and wondered what “58 HRC” means and why it matters for your die or mould. Hardness is one of the most critical properties in tool and die steel selection. Get it right, and your tooling performs reliably for thousands of production cycles. Get it wrong, and you’re facing premature wear, unexpected cracking, or both. This complete blog explains what is the Rockwell C scale means, maps HRC ranges to every major tool steel grade, and shows you exactly how to choose the right hardness for your application.
What is Hardness in Steel and Why Does It Matter?
In simple terms, hardness is a material’s ability to resist dents, scratches, or permanent deformation under pressure.
For tool and die steel, hardness is one of the most important properties because it affects:
- Wear resistance – resists abrasion and surface wear
- Edge retention – keeps cutting tools sharper for longer
- Compressive strength – withstands heavy forming pressure
- Dimensional stability – maintains shape and accuracy during production
However, hardness always comes with a trade-off: toughness.
As hardness increases, the steel can become more brittle and prone to cracking under impact.
So, the right steel grade and hardness level should provide the best balance of wear resistance and toughness for the application.
What is the Rockwell Hardness Test?
The Rockwell hardness test is the most widely used hardness measurement method in the tool steel industry.
The Rockwell hardness test checks how hard a material is by measuring how deep a diamond cone goes into its surface.
It works in 3 simple steps:
- Minor load applied – A small force (10 kgf) is applied first to set the starting point and remove surface unevenness.
- Major load applied – A bigger force (150 kgf for HRC) pushes the diamond into the material.
- Load removed – The big force is removed, and the machine measures how deep the mark remains.
Result:
- Less depth = harder material = higher HRC
- More depth = softer material = lower HRC
Understanding HRC -The Rockwell C Scale
HRC stands for Hardness Rockwell C -meaning the result was obtained using the Rockwell C scale. It is the standard unit used to express the hardness of virtually all tool and die steels.
The HRC scale for tool steels runs approximately from 20 HRC(soft, annealed or pre-hardened low-alloy steel) to 68 HRC (the upper limit of conventional hardened tool steel). Here is how the HRC range maps to practical tool steel conditions:
| HRC Range | Condition / Category | In Practice |
| 20-35HRC | Soft / pre-hardened | Easily machined; P20 mould steel supply condition |
| 36-44 HRC | Medium Hardness | Good toughness; forging dies for heavy impact |
| 45-52 HRC | Hard | Balanced wear resistance and toughness; H13 die casting dies |
| 53-60 HRC | Very Hard | High wear resistance; D2 cold work dies, punches |
| 61-66 HRC | Extremely Hard | Maximum wear resistance; M2, M42 high-speed steel cutting tools |
| Above 66 HRC | Ultra Hard | Extremely brittle; not typical for standard die steels |
HRC vs HRB vs HRA — Which Scale Applies to Tool Steel?
| HRC | HRB | HRA |
| Indenter: Diamond cone | Indenter: 1/16″ steel ball | Indenter: Diamond cone |
| Major load: 150 kgf | Major load: 100 kgf | Major load: 60 kgf |
| Range: Approx 20–70 HRC | Range: Approx 0–100 HRB | Range: for very hard materials |
| Used For: All hardened and heat-treated tool steels, die steels, high-speed steels, and hardened alloy steels | Used For: Softer steels (mild steel, annealed low-alloy steel), copper alloys, aluminium alloys | Used For: Cemented carbides, case-hardened surfaces, thin hardened layers |
You cannot directly compare numbers from different Rockwell scales. 60 HRC and 60 HRB are not equivalent, they refer to completely different hardness levels. Always confirm which scale a hardness value is expressed in before comparing materials.
HRC vs Brinell (HB) vs Vickers (HV): Approximate conversion table for tool steel
While HRC is the standard for tool steel, you will also encounter Brinell (HB or HBW) and Vickers (HV) hardness values — particularly on material certificates from European suppliers who use DIN specifications.
| HRC | HB (Brinell) | HV (Vickers) | Approx. Tensile Strength |
| 20 | 226 | 238 | ~780 MPa |
| 25 | 253 | 266 | ~870 MPa |
| 30 | 286 | 302 | ~995 MPa |
| 35 | 327 | 345 | ~1140 MPa |
| 40 | 371 | 392 | ~1310 MPa |
| 45 | 421 | 446 | ~1500 MPa |
| 48 | 455 | 481 | ~1630 MPa |
| 50 | 481 | 509 | ~1720 MPa |
| 52 | 512 | 544 | ~1820 MPa |
| 55 | 560 | 595 | ~1980 MPa |
| 58 | 615 | 655 | ~2160 MPa |
| 60 | 654 | 697 | ~2280 MPa |
| 62 | 746 | 746 | ~2400 MPa |
*Note: These are approximate conversions. For precise engineering calculations, always use the original test method. Conversion between hardness scales involves empirical estimates, not exact equivalences. *
HRC Ranges for Common Applications — Quick Reference
If you are selecting tool steel hardness based on the application & the grade, here is a practical quick-reference guide:
| Application | Recommended HRC | Recommended Grade |
| Aluminium die inserts | 44–48 HRC | H13 tool steel / DIN 1.2344 ESR |
| Aluminium extrusion dies | 48–52 HRC | H13 tool steel / DIN 1.2344 |
| Hot forging dies (heavy hammers) | 40–45 HRC | H13 or H11 |
| Hot forging dies (mechanical press) | 46–50 HRC | H13 |
| Cold stamping and blanking dies | 58–62 HRC | D2 tool steel / DIN 1.2379 |
| Cold forming and bending dies | 56–60 HRC | D2 or A2 |
| Plastic injection mould cavities | 48–54 HRC | H13 or P20+Ni |
| Plastic injection mould bases | 28–32 HRC | P20 / DIN 1.2311 |
| Drill bits and taps | 62–65 HRC | M2 / DIN 3343 |
| Cutting and slitting knives | 58–62 HRC | D2 or M2 |
| Punches (light impact) | 58–62 HRC | D2 |
| Punches (heavy impact) | 52–58 HRC | H13 |
| Gauges and measuring tools | 58–64 HRC | D2 or EN31 |
What Happens if HRC is Too High or Too Low?
1. If HRC is too high
The die becomes too hard and brittle.
- More chances of cracking or breaking under impact or stress
- In hot work, heat checking (small surface cracks) starts earlier
- Sharp corners and weak areas may fracture suddenly
- Failure can happen without warning
2. If HRC is too low
The die becomes too soft.
- Surface wears out quickly
- Shape and size accuracy reduce over time
- Can deform permanently under heavy pressure
- In die casting, molten metal may stick to the die (soldering)
- In cutting/stamping, edges become dull or chip fast
- Failure is gradual, but die life becomes much shorter
So, the correct HRC should balance hardness and toughness for the application.
What to check on the MTC
1. Verify the hardness is within the specification for the supply condition. H13 in annealed supply should not exceed 229 HBW. Higher values may indicate the material was not properly annealed.
2. Check for uniformity. If multiple hardness readings are reported from different locations in the bar, they should be consistent. Large variation in hardness across a section is a warning sign of segregation or poor annealing.
3. Confirm the test method. Brinell (HBW) and Vickers (HV) hardness values on the certificate are not directly comparable to HRC values you may see on a datasheet — use the conversion table above if comparison is needed.
4. For pre-hardened grades (P20): Verify the HRC range corresponds to 28–32 HRC. Values outside this range may indicate the steel will machine differently than expected or may not meet the performance requirements of the mould design.
Frequently Asked Questions
1. What HRC stands for in steel?
HRC stands for Hardness Rockwell C, a standard hardness scale for hardened tool steels. Higher HRC means harder and more wear-resistant steel.
2. What HRC is H13 tool steel?
H13 is typically hardened to 40–52 HRC depending on use:
- Die casting: 44–48 HRC
- Extrusion/plastic moulds: 48–52 HRC
- Forging dies: 40–44 HRC
3. What is the HRC of D2 steel?
D2 is usually hardened to 55–62 HRC for stamping and blanking applications.
4. What is the difference between HRC and HB hardness?
HRC uses a diamond cone and measures depth; HB (Brinell) uses a ball indenter and measures impression size.
5. Is higher HRC always better for dies?
No. Higher HRC improves wear resistance but reduces toughness, increasing crack risk.
6. What HRC should I specify for a plastic injection mould?
- P20: 28–32 HRC
- H13: 48–52 HRC for longer runs or abrasive materials
7. Can I check tool steel hardness without a lab?
Yes. Use portable Rockwell or Leeb hardness testers for quick on-site checking.
8. What hardness should I specify when ordering H13?
H13 is usually supplied soft-annealed (max 229 HBW) for machining or can be supplied pre-hardened (30–36 HRC) / fully hardened as required.
9. Why do two steels with the same HRC perform differently?
HRC alone doesn’t tell the full story & performance also depends on:
- Chemical composition
- Heat treatment quality
- Grain structure
- Alloying elements
10. What is the HRC of DB6 steel for forging dies?
For forging dies, DB6 is commonly used around 38–42 HRC to balance toughness and wear resistance. It is known for better toughness than H13 in heavy-impact applications.
- Pre-hardened condition: 360–430 BHN (approx. 38–45 HRC)
- Fully hardened / heat-treated: up to 50–55 HRC
- Annealed condition: max 240–255 BHN
Conclusion
At Virat Steels, we help customers across India choose the right tool steel grade, correct HRC, and suitable size/form for die casting, forging, extrusion, and plastic moulding applications backed by stock availability, test certificates, and ultrasonic-tested material.
📞+91 98140-21775 | 🌐 www.viratsteels.com | ✉ info@viratsteels.com
HCHCR D2 Steel in India for Your Cold Work Steel Industry
When it comes to cold work steel applications, selecting the right material is crucial for durability, precision, and long-term performance. One such outstanding choice is HCHCR D2 Steel—a high-carbon, high-chromium tool steel. In India, Virat Special Steels Pvt. Limited stands out as the leading supplier and stockiest of this versatile steel, catering to industries with a demand for superior-quality materials. This article dives deep into the significance of HCHCR D2 steel, its applications, and why Virat Special Steels should be your trusted partner.
What is HCHCR D2 Steel?
HCHCR D2, also known as DIN 2379 or AISI D2, is a high-carbon, high-chromium tool steel. It is particularly renowned for its exceptional hardness, wear resistance, and ability to retain its sharp edges. These qualities make it the go-to choice for a variety of cold work applications.
Key Characteristics:
- Hardness: Retains sharpness and withstands extreme wear conditions.
- Wear Resistance: Ideal for prolonged usage in abrasive environments.
- Dimensional Stability: Minimal deformation during heat treatment, ensuring precise applications.
- Corrosion Resistance: Its chromium content provides a level of resistance to rust and corrosion.
Applications of HCHCR D2 Steel
HCHCR D2 steel’s properties make it indispensable in industries that require robust materials for cold work processes. Below are the key applications:
- Cold Stamping and Forming Dies
- Used to create high-precision stamping dies for sheet metal processing.
- Cold Forming Rolls
- Essential for shaping metals under high pressure while maintaining dimensional accuracy.
- Chipper Knives
- Preferred for industrial wood chippers, ensuring longevity and precision cutting.
- Punches and Slitters
- Ideal for creating tools that deliver accurate cuts and punches repeatedly.
- Shear Blades
- Used for shearing and trimming metal sheets, offering excellent cutting performance.
- Tire Shredders
- Equipped to handle the rigors of recycling and tire shredding.
- Threading and Cutting Dies
- Provides high-quality threading solutions for industries needing fine details and uniformity.
- Stamping Tools
- Reliable for mass production, ensuring tools can handle repetitive tasks without wear.
Why Choose Virat Special Steels Pvt. Limited?
Virat Special Steels Pvt. Limited has established itself as India’s largest supplier and stockiest of HCHCR D2 steel. Here’s why you should partner with them:
1. Extensive Inventory
Virat Special Steels boasts a wide range of sizes and configurations to cater to varying industrial needs.
- Round Bars: 13mm Dia to 1500mm Dia
- Rectangular Bars: Thickness 13mm – 500mm, Width 13mm – 1500mm
2. Industry Expertise
With years of experience in the steel industry, the team at Virat Special Steels offers unmatched knowledge and guidance. Their technical expertise ensures you get the perfect material for your requirements.
3. Top-Quality Products
The company sources only the best-quality HCHCR D2 steel, ensuring products meet stringent international standards. Their steel is known for its:
- Superior machinability
- Excellent wear resistance
- Outstanding surface finish post-treatment
4. Customer-Centric Approach
At Virat Special Steels, customer satisfaction is paramount. From consultation to delivery, their dedicated team provides seamless service to meet your timelines and specifications.
5. Competitive Pricing
Despite being a leader in quality and service, the company offers competitive pricing, ensuring value for money.
Modes of Supply for HCHCR D2 Steel
Virat Special Steels ensures you have access to the best materials for your specific application. Their HCHCR D2 steel is available in a variety of formats, including forged and rolled bars.
Available Options:
- Rounds and rectangular configurations
- Custom sizes for niche applications
- Bulk quantities for industrial operations
Benefits of Using HCHCR D2 Steel from Virat Special Steels
1. Durability in Harsh Conditions
HCHCR D2 steel offers unmatched toughness and is designed to handle the demands of cold work applications.
2. Enhanced Productivity
With its exceptional resistance to wear and deformation, industries can achieve higher efficiency and reduced downtime.
3. Cost-Effective Solution
Investing in high-quality HCHCR D2 steel translates to long-term savings due to its extended lifespan and reduced maintenance needs.
4. Eco-Friendly
Virat Special Steels is committed to sustainable practices, ensuring environmentally responsible sourcing and processing.
How to Place Your Order with Virat Special Steels
Ready to enhance your operations with the best HCHCR D2 steel in India? Here’s how you can get started:
- Consultation: Connect with their expert team to discuss your specific needs.
- Sizing: Select from their extensive range of sizes or request custom dimensions.
- Quotation: Receive a competitive price quote tailored to your order.
- Delivery: Experience fast, reliable shipping across India.
For more details, visit their dedicated HCHCR D2 page: Virat Special Steels HCHCR D2.
Conclusion
When it comes to cold work steel applications, HCHCR D2 steel is the top choice for industries seeking quality and durability. As India’s largest supplier and stockiest of this versatile material, Virat Special Steels Pvt. Limited ensures you get the best in terms of performance and value. From an extensive inventory to superior customer service, Virat Special Steels is the trusted partner you need to take your operations to the next level.
FAQs
1. What makes HCHCR D2 steel unique?
HCHCR D2 steel is unique due to its high carbon and chromium content, providing excellent hardness, wear resistance, and dimensional stability.
2. Which industries benefit the most from HCHCR D2 steel?
Industries like automotive, manufacturing, recycling, and sheet metal processing benefit significantly from HCHCR D2 steel.
3. Can Virat Special Steels provide custom sizes?
Yes, Virat Special Steels offers customized sizes and configurations to meet specific industrial requirements.
4. Is HCHCR D2 steel suitable for extreme conditions?
Absolutely! HCHCR D2 steel is designed to perform exceptionally well in harsh, abrasive environments.
5. How can I contact Virat Special Steels?
You can visit their website here or reach out to their expert team for assistance.
Any further queries feel free to contact us :
🌐https://www.viratsteels.com 📬 info@viratsteels.com ☎+91 98140-21775
D2 vs D3 Steel: Key Differences
When it comes to tool steels, D2 and D3 are two of the most commonly used grades in the industry. Both are high-carbon, high-chromium steels known for their durability and wear resistance, making them ideal for various cutting, shaping, and forming applications. However, despite their similarities, there are distinct differences that can significantly impact their performance in different environments.
D2 steel is renowned for its high wear resistance and ability to retain a sharp edge, which is attributed to its 1.5-2% carbon and 12-14% chromium content. It also contains small amounts of manganese, molybdenum, silicon, and vanadium, which contribute to its overall toughness and hardenability. D2’s hardness after heat treatment typically reaches 60-62 HRC, providing a good balance between hardness and toughness for many applications.
On the other hand, D3 steel, with its 1.9-2.3% carbon and 12-14% chromium content, offers slightly different properties. It includes small amounts of manganese, molybdenum, silicon, nickel, and copper, which enhance its wear and abrasion resistance. D3 is known to perform better in extreme temperatures and retains its hardness, reaching 63-65 HRC after heat treatment, which is slightly higher than D2.
Edge retention is another critical factor where D2 excels due to its higher carbon content, although D3 can achieve similar levels with proper heat treatment. Corrosion resistance is a shared strength between the two, thanks to their high chromium content, but D3 edges out slightly due to its higher nickel content, offering enhanced corrosion resistance.
In terms of machinability, D3 is considered to have better machinability compared to D2, which can be more challenging to machine due to its abrasiveness and hardness. This makes D3 a more suitable option for applications that require extensive machining.
Ultimately, the choice between D2 and D3 steel will depend on the specific requirements of the project. Factors such as the desired balance between hardness and toughness, wear resistance needs, and machining considerations will play a crucial role in determining the most suitable steel grade. Consulting with metallurgical experts and considering the application’s unique demands will ensure the selection of the right steel for optimal performance and longevity.
For those interested in a more in-depth comparison, further information can be found in detailed analyses provided by industry experts. Understanding these key differences will aid professionals in making informed decisions that align with their project’s goals and budget constraints. Whether it’s for cutting tools, punches, dies, or other demanding applications, choosing the right steel is essential for achieving the desired outcomes in metalworking projects.
Virat Special Steels is the largest stockiest and supplier of HCHCR D2 and HCHCR D3 Steel in flat, square and round bar. We provide steel in all sizes as your requirements. HCHCR D2 and HCHCR D3 die steel is available in flat, square and round shape. Consult our team who will assist you for HCHCR D2/D3 steel query.
Any further queries feel free to contact us :
🌐https://www.viratsteels.com 📩info@viratsteels.com 📲+91-98140-21775
Exploring High Carbon, High Chromium Tool Steels D2 and D3!
In the realm of tool steel, two grades that stand out for their exceptional performance in tough conditions are HCHCR-D2 and HCHCR-D3. These high carbon, high chromium tool steels are engineered for durability and resistance to wear, making them ideal for a variety of industrial applications.
HCHCR-D2, also known as AISI D2, is renowned for its wear resistance and high hardness, even when exposed to elevated temperatures. This makes it a preferred choice for tools that must maintain a sharp edge and dimensional stability over prolonged use. Its composition, which includes 1.5% carbon and 12% chromium, along with molybdenum and vanadium, contributes to these characteristics.
On the other hand, HCHCR-D3, corresponding to AISI D3, is distinguished by its higher carbon content and the addition of cobalt. This unique blend results in a tool steel that not only exhibits excellent hardness and wear resistance but also provides enhanced dimensional stability. It’s particularly well-suited for tasks that demand a high degree of wear resistance, such as in the creation of blanking and forming dies.
Both HCHCR-D2 and HCHCR-D3 are integral to the Indian steel industry, aligning closely with international standards and serving a critical role in cold work applications. Their ability to withstand harsh conditions without losing their integrity makes them invaluable in the manufacturing of cutting tools, dies, and punches.
Virat Special Steels emerges as a key player in this sector, being the largest stockiest and supplier of these tool steels. They offer an extensive range of sizes and shapes, catering to the specific needs of their clients. With a dedicated team ready to assist with inquiries related to HCHCR-D2 and HCHCR-D3 steel, they ensure that clients receive the best material for their requirements.
The future of manufacturing and tool-making shines bright with materials like HCHCR-D2 and HCHCR-D3. As industries continue to evolve, the demand for materials that can endure the rigors of modern engineering challenges will only grow. Companies like Virat Special Steels are at the forefront, providing the resources necessary for innovation and progress in this dynamic field.
We supply steel bars to forging companies across #Ludhiana, #Faridabad, #Bhiwadi, #Sonipat, #Rohtak, #Haryana, #Punjab, #Jamshedpur, #Trichy, #Aurangabad, #Pune, #Gurgaon, #Noida, #Ghaziabad, #Indore, and all locations in India.
Learn more: https://www.viratsteel.in/materials/cold-work-steel-supplier-in-india/
Contact us today to buy the best quality HCHCR-D2 and HCHCR-D3 steel for your tooling needs!
🌐https://www.viratsteels.com 📬 info@viratsteels.com ☎+91 98140-21775