Phone:
86-15852949220
NANJING ALAS INTERNATIONAL CO., LTD
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Made to common industry standards for bolt holes, thickness, and cutting shape
Fit most major machine brands around the world
Let you stock just one blade for multiple machines
Simplify inventory and lower storage costs
Hardness: HRC 50–525
Very tough, heat-resistant, and long-wearing
Does not deform or chip during heavy, continuous cutting
Best for high-strength rebar and large jobs
Hardness: HRC 61–64
Extremely hard and wear-resistant
Works well for hard cold-rolled rebar
Less tough – avoid high-impact cutting
Hardness: HRC 60–62
Affordable and easy to produce
Good for standard low-to-medium strength rebar
Ideal for small and medium projects
Square blades: 4 usable edges → longer life, high-volume work
Rectangular blades: 1–2 edges → small machines
GQ40, GQ50, GQ60 each use standard thickness, length, width, and bolt holes
Always follow your machine manual
Normal round steel: Use 9CrSi or Cr12MoV (low cost, good performance)
High-strength ribbed rebar: Use H13 (less chipping, stable heavy use)
Full grinding + vacuum heat treatment
Even hardness across the blade
Sharp edge lasts longer
Less chipping and dulling
Pakistan: Stable cutting for Grade 60 rebar
Bangladesh: Clean cuts for 500W / 500 TMT bars
Standard sizes: 80x80x25mm, 110x110x28mm
Four sharp edges per blade
Rotate 90° when one edge wears
4x longer life, lower cost per cut
Reduce chipping and breaking
Engineering help for difficult jobs
Less downtime on site
ALAS HardnessMap quality control
Pakistan: Lahore, Karachi
Bangladesh: Dhaka, Chittagong
| NO. | Product Name | Specification Dimensions (length x width x height/thickness) ) | Material | Remarks |
| 1 | Rebar shear blade size | 78*78*17 mm | H13 | Customization services are available; we can manufacture according to your drawings, with a minimum order quantity of 2 piece. |
| 2 | 80*80*17mm | |||
| 3 | 80*80*30 mm | |||
| 4 | 83*83*16 mm | |||
| 5 | 83*83*26 mm | |||
| 6 | 83*83*26 mm | |||
| 7 | 90*90*20mm | |||
| 8 | 90*90*26 mm | |||
| 9 | 100*100*20mm | |||
| 10 | 100*100*30 mm | |||
| 11 | 110*110*20 mm | |||
| 12 | 100*30*75 mm | |||
| 13 | 85x65x30 mm | |||
Base Grade | Steel Category | Chinese Standard GB/T 1299 | American Standard ASTM | German Standard DIN (W-Nr.) | Japanese Standard JIS |
H13 | Hot Work Die Steel | 4Cr5MoSiV1 | H13 | 1.2344 | SKD61 |
Cr12MoV | Cold Work Die Steel | Cr12MoV | 1.2601 | SKD11 | |
9CrSi | Alloy Tool Steel (Cutting Tool Steel) | 9CrSi | 1.2108 |
Based on different working conditions and budget requirements, we offer three general industrial-grade alloy steel materials:
9CrSi (Alloy Tool Steel): An economical choice. It has good hardenability and machinability, suitable for cutting ordinary medium-to-low strength rebar, and is widely used in small and medium-sized projects.
Cr12MoV (Cold Work Die Steel): High-end wear-resistant type. High carbon and high chromium content, after heat treatment, it has excellent wear resistance, making it an ideal choice for continuous cutting of high-strength rebar. Its service life is much longer than 9CrSi.
H13 (Hot Work Die Steel/Red Hard Steel): High toughness and high wear resistance. It exhibits excellent resistance to chipping and thermal stability in rebar cutting applications, especially suitable for high-speed production lines or online cutting of hot-rolled rebar, and cutting of ultra-thick rebar and composite materials of scrap rebar.
Chipping is usually caused by the following factors:
Insufficient toughness: Using ultra-hard but low-toughness materials to cut large-diameter or ultra-hard rebar can easily lead to brittle fracture. In this case, we recommend switching to H13 material, as its excellent toughness can effectively absorb impact forces.
Improper clearance: Too large or too small a gap between the upper and lower blades will lead to uneven stress, resulting in chipping.
Insufficient heat treatment: Internal stress is not completely eliminated. All our blades use vacuum heat treatment technology to ensure uniform hardness from the inside out, greatly reducing the chipping rate.
Wear resistance: Cr12MoV has significantly better wear resistance than 9CrSi. Under the same working conditions, the number of cuts for Cr12MoV is usually 2-3 times that of 9CrSi.
Cost: 9CrSi is more cost-effective, suitable for projects sensitive to initial purchase costs; although the unit price of Cr12MoV is slightly higher, its lower replacement frequency results in a lower overall cutting cost per ton of rebar.
For high-strength or ribbed rebar, we strongly recommend H13:
If you are facing extremely high operating intensity and are concerned about downtime due to blade chipping, choose H13. Its impact fatigue resistance is top-notch in the rebar processing industry.
Yes. We understand that blade specifications vary among different equipment brands (e.g., from Italy, Germany, or China). We are equipped with a full set of CNC machining equipment, and you only need to provide the following information:
Detailed drawings (including length, width, thickness, and hole dimensions).
Material requirements (9CrSi, Cr12MoV, or H13).
Specifications of the workpiece to be processed (rebar diameter and strength grade).
We can provide a 1:1 precise customized solution.
Regular rotation: Our blades are usually designed with 4 or 8 cutting edges. Please rotate the blade promptly when one cutting edge becomes dull.
Tighten bolts: Ensure the blades are securely installed. Any slight looseness will cause destructive impact during the cutting process.
Control the gap: Adjust a reasonable blade gap according to the rebar diameter, usually about 10% of the rebar diameter.
Nanjing Alas International Co., Ltd. is a professional industrial tooling manufacturer focused on shear blades, bending dies, shredder blades, and custom wear parts. We offer full application engineering, material selection, setup guidance, and after-sales support to global customers.
Tell us your requirements, and our engineering team will provide professional solutions for blade specification, tool life optimization, and cost-effective production.