Premium Hydraulic Metal Shear Blades & Industrial Replacement Knives

Searching for high-precision spare blades for industrial plate shears?

Premium Hydraulic Metal Shear Blades & Industrial Replacement Knives FAQ

1. What steel grades do you recommend for heavy-duty shear blades?

2. What metal materials can these blades cut?

3. Why is precision surface grinding necessary for shear blades?

4. Can you make custom non-standard shear blades and dies?

5. Are these blades suitable for continuous high-frequency heavy work?

6. Do your replacement blades fit most shear machines?

7. How to adjust and calibrate blade clearance correctly?

8. How to maintain and sharpen shear blades properly?

9. What factors affect shear blade service life?

10. What quality guarantee do you offer?

11. What is your delivery time and how to order in bulk?

Hydraulic Metal Shear Blades & Plate Shear Blades | Material Selection & Maintenance Guide

1. Why Premium Shear Blades Improve Your Production

• Faster production runs: Precision blade finishing ensures clean one-pass cuts and eliminates extra rework and polishing

• Less material waste: Sharp, stable cutting edges minimize burrs and scrapped metal plates

• Longer machine lifespan: Well-fitted blades reduce continuous hydraulic pressure and mechanical vibration

• Fewer shutdowns: Durable blade construction cuts down frequent replacements and maintenance work

2. Our Blade Manufacturing Standards

• Vacuum Heat Treatment: Removes surface oxidation and defects. Evens out internal steel structure to make blades harder, tougher and resistant to bending under high-pressure cutting conditions.

• Precision CNC Grinding: Creates flat blade surfaces and sharp vertical edges. Keeps consistent cutting clearance for smooth, stable plate cutting without offset or shaking.

• Hardness & Toughness Balancing: Each blade is tested individually. We avoid overly brittle edges that chip or soft edges that wear quickly in continuous production.

3. Shear Blade Material Selection Guide

3.1 H13 (4Cr5MoSiV1) — For Hot Cutting & Thick Steel Plates

• Chemical Composition: C (0.32-0.45%), Si (0.80-1.20%), Cr (4.75-5.50%), Mo (1.10-1.75%), V (0.80-1.20%)

• Core Properties: Excellent high-temperature stability, strong impact resistance and thermal fatigue resistance. Stays stable under repeated heat and heavy loads.

• Application Scenarios: Ideal plate shear blades for thick steel, high-strength steel and hot-rolled plates. Widely used on large hydraulic shears for heavy-duty continuous production.

3.2 Cr12MoV / SKD11 — Anti-Sticking Blade for Stainless Steel & Alloy Plates

• Chemical Composition: C (1.45-1.70%), Cr (11.5-13.0%), Mo (0.4-0.6%), V (0.15-0.30%)

• Core Properties: Great wear resistance, minimal heat treatment deformation and balanced toughness. Offers reliable long-term stability.

• Application Scenarios: Perfect for carbon steel, stainless steel and aluminum plates. Effectively stops material sticking and produces clean, burr-free cuts for daily industrial shearing.

3.3 LD (7Cr7Mo2V2Si) — Heavy-Duty Blade for Thick & Hard Metals

• Chemical Composition: C (0.65-0.75%), Si (0.8-1.2%), Cr (6.5-7.5%), Mo (1.8-2.2%), V (1.8-2.2%)

• Core Properties: High structural strength and strong chipping resistance. Fixes the brittleness issue common with high-hardness blades.

• Application Scenarios: Heavy-duty plate shear blades built for ultra-thick and high-hardness metal. Suitable for large hydraulic shears under high-intensity working conditions.

3.4 9CrSi — Cost-Effective Blade for Light & Medium Cutting

• Chemical Composition: C (0.85-0.95%), Si (1.0-1.3%), Cr (1.2-1.5%)

• Core Properties: Good surface hardness and steady wear resistance with balanced toughness. Affordable and dependable for regular use.

• Application Scenarios: Budget-friendly blades for thin carbon steel sheets and low-hardness metal plates. Best suited for light to medium daily production tasks.

3.5 6CrW2Si — Heat-Resistant Blade for Hot Shearing Work

• Chemical Composition: C (0.55-0.65%), Si (0.8-1.1%), Cr (1.2-1.5%), W (2.0-2.5%)

• Core Properties: As a classic shock-resistant tool steel for industrial cutters and dies, 6CrW2Si features extremely high toughness and outstanding structural stability. It effectively withstands intense impact, continuous vibration and strong shear force during long-term operation, resisting blade chipping and cracking under high-load working conditions. It also retains excellent red hardness, with no softening or deformation in high-temperature environments.

  Application Scenarios: Widely used in industrial blade and die manufacturing for high-impact and high-vibration working conditions. Perfect for shearing medium and thick steel plates, high-hardness metal wires and cold-rolled sheets. It performs exceptionally well in heavy shear scenarios that require strong impact resistance and anti-chipping capability, delivering stable cutting performance for long-term high-intensity production.

3.6 D2 — Wear-Resistant Blade for Medium-Hard Materials

• Chemical Composition: C (1.40-1.60%), Cr (11.0-13.0%), Mo (0.70-1.00%)

• Core Properties: Excellent wear resistance, strong anti-deformation ability and good chipping resistance. Performs consistently during long continuous runs.

• Application Scenarios: Ideal for medium-hard metal cutting in medium and heavy-load production. Reduces blade replacement frequency and overall downtime.

4. Practical Operation & Maintenance Tips

• Cutting Gap Setting: Set blade gap at 7%-10% of the workpiece thickness. Proper gap prevents burrs and avoids excessive blade friction.

• Regular Bolt Checks: Vibration during long operation loosens blade bolts. Regular tightening avoids cutting offset and abnormal blade wear.

• Material Matching Rule: Use wear-resistant blades for sticky metals like aluminum and stainless steel. Choose high-toughness blades for thick plates to prevent chipping and early failure.

5. Conclusion