Comparing Hardness Levels of Carbide Rods for Different Applications

What Is Tige en carbure Hardness?

Carbide rods are essential components in cutting tools, wear parts, and industrial applications. Their hardness determines their durability, wear resistance, and overall performance. But what exactly is carbide rod hardness? In simple terms, hardness refers to a material’s ability to resist deformation, scratching, or penetration. Tungsten carbide, commonly used in carbide rods, achieves high hardness levels due to its unique composition of tungsten and carbon atoms bonded together to form a dense, crystalline structure.

The hardness of a carbide rod impacts its cutting performance, lifespan, and ability to withstand high-stress environments. However, hardness isn’t the only factor—toughness also plays a crucial role. A balance between hardness and toughness ensures that carbide rods don’t become too brittle under stress.

Carbide Rod

Common Hardness Scales for Tiges en carbure

Carbide hardness is measured using different scales, depending on the testing method. The most common ones include:

Rockwell Hardness (HRA, HRB, HRC)

  • Used primarily for metal hardness.
  • HRA is often used for tungsten carbide.
  • HRC applies more to hardened steel.

Dureté Vickers (HV)

  • Utilizes a diamond pyramid to measure hardness.
  • Commonly used for fine materials like carbide.

Mohs Hardness

  • Ranks materials from 1 (talc) to 10 (diamond).
  • Tungsten carbide typically scores around 9.

Dureté Knoop (HK)

  • Used in microhardness testing for thin materials.

Each scale has its advantages, but for carbide rods, Rockwell (HRA) and Vickers (HV) are the most relevant.

Carbide Grades and Their Hardness

Carbide grades differ based on their cobalt content, grain size, and additional alloying elements. Below is a breakdown of some common carbide grades and their hardness levels:

Qualité du carbureCompositionDureté Rockwell (HRA)Dureté Vickers (HV)Applications
YG694% WC, 6% Co90.51450Usinage polyvalent
YG892% WC, 8% Co89.51350Coupe robuste
YG1090% WC, 10% Co88.51300Applications résistantes aux chocs
YG1585% WC, 15% Co86.01100High-impact applications
YL10.2Fine-grained WC, 10% Co92.51600Haute résistance à l'usure
K1094% WC, 6% Co91.01500Precision machining
K2092% WC, 8% Co89.51400Coupe polyvalente
K3090% WC, 10% Co88.01300Rough machining
G10Ultra-fine WC, 10% Co93.01650High precision tools
C293% WC, 7% Co90.01450Wear-resistant parts

Each grade has its advantages: lower cobalt content increases hardness, while higher cobalt content improves toughness.

Carbide Wear Parts
Carbide saw tips
Carbide
Carbide Brazed Tips
Carbide Plate

Hardness vs. Toughness: Which One Matters More?

FacteurDureté élevéeHaute résistance
Résistance à l'usureExcellentModéré
Résistance aux chocsFaibleHaut
Cutting Edge RetentionSupérieureModéré
Résistance à la ruptureFaibleExcellent
Applications typiquesPrecision machiningApplications lourdes

High-hardness carbide rods last longer in wear-intensive applications but may chip under impact. Conversely, high-toughness rods resist breaking but may wear down faster.

Comment choisir le bon Tige en carbure Based on Hardness?

Choosing the right carbide rod depends on your application needs. Consider the following:

ApplicationRecommended HardnessBest Carbide Grades
Coupe à grande vitesse90+ HRAYG6, K10, G10
Usinage à haut rendement88-90 HRAYG8, YG10, K20
Impact-resistant tools85-88 HRAYG15, K30
Outils de précision92+ HRAYL10.2, G10
Wear-resistant parts90-93 HRAC2, YG6, K10

Higher hardness is ideal for wear resistance, while lower hardness grades provide toughness for impact applications.

Carbide Rod

FAQ

QuestionRéponse
What is the hardest carbide rod?Typically, ultra-fine grain carbide rods like G10 or YL10.2 have the highest hardness.
How does carbide hardness compare to steel?Carbide is significantly harder than steel, often exceeding HRC 65.
Does higher hardness mean better performance?Not always—higher hardness improves wear resistance but may reduce impact strength.
How can I measure carbide rod hardness?Rockwell (HRA) or Vickers (HV) tests are commonly used.
What affects carbide hardness?Grain size, cobalt content, and sintering process all influence hardness.
Which carbide grade is best for high-impact use?YG15 and K30 offer higher toughness for impact resistance.
Can I sharpen carbide rods?Yes, but specialized diamond grinding is required.

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Truer Carbides a fourni une gamme étendue de carbures de tungstène de grandes dimensions utilisés pour diverses applications, notamment dans les secteurs de l'exploitation minière et de la construction, du pétrole et du gaz, des pièces d'usure et des outils de coupe, d'usinage et de fraisage.

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