As Saudi recycling sites scale, safety and control become productivity drivers. Manual repositioning near cutting zones increases risk and slows cycles. The modern approach is to centralize cutting into a controlled station: stable holding, predictable discharge, and organized staging. This trend supports wider adoption of an industrial guillotine shear that can process heavy scrap consistently with fewer “operator-dependent” adjustments.
The customer wanted to reduce:
Frequent manual repositioning and “trial cuts”
Irregular output piles that were hard to stage safely
Cutting-zone congestion during peak inbound days
They needed a scrap shear for steel that improves control and repeatability.
Jiangsu Wanshida Hydraulic Machinery Co., Ltd. supplied 1 set Y43L-8000 (Q43L-8000L) hydraulic guillotine shear machine with strong holding and side support cylinders. These features stabilize material during cutting, reducing the need for repeated repositioning. The yard standardized the process:
Feed → Hold/Support → Cut → Discharge → Stack, improving zone discipline and reducing risk linked to chaotic staging.
| Item | Specification (Y43L-8000 / Q43L-8000L) |
|---|---|
| Holding system | Holding 1100 kN ×2 + Side 750 kN ×2 |
| Cutting system | 800-ton class cutting force, 2 cylinders |
| Cutting width / min mouth | 2000 / 500 mm |
| Cutting angle | 9° |
| System pressure | 27.5 MPa |
| Loading room | 8000 × 1950 × 900 mm |
| Max scrap examples | Ø125 round; 120×120 square; 60×1700 plate |
| Power | 225 kW, motors 45 kW × 6 |
| Weight | ~92,000 kg |
They reported fewer interruptions caused by unstable pieces and less time spent “fixing” piles. Output became easier to stage safely and load without last-minute adjustments. Dispatch became more predictable because cutting output was steadier.
A hydraulic guillotine shear machine improves safety and throughput when it reduces manual intervention and turns cutting into a controlled routine.
Q1: How does strong holding improve safety?
It stabilizes the scrap during cutting and reduces repositioning near the blade area.
Q2: What determines real cutting rhythm?
Feeding consistency, holding stability, and a clean staging layout—more than raw tonnage alone.
Q3: What should be included in site planning?
Clear feed lane, discharge zone, stacking space, and safe separation from traffic lanes.
CTA: Share your yard layout and main scrap shapes. We’ll recommend a safe, controlled cutting workflow with the right shear model.
As Saudi recycling sites scale, safety and control become productivity drivers. Manual repositioning near cutting zones increases risk and slows cycles. The modern approach is to centralize cutting into a controlled station: stable holding, predictable discharge, and organized staging. This trend supports wider adoption of an industrial guillotine shear that can process heavy scrap consistently with fewer “operator-dependent” adjustments.
The customer wanted to reduce:
Frequent manual repositioning and “trial cuts”
Irregular output piles that were hard to stage safely
Cutting-zone congestion during peak inbound days
They needed a scrap shear for steel that improves control and repeatability.
Jiangsu Wanshida Hydraulic Machinery Co., Ltd. supplied 1 set Y43L-8000 (Q43L-8000L) hydraulic guillotine shear machine with strong holding and side support cylinders. These features stabilize material during cutting, reducing the need for repeated repositioning. The yard standardized the process:
Feed → Hold/Support → Cut → Discharge → Stack, improving zone discipline and reducing risk linked to chaotic staging.
| Item | Specification (Y43L-8000 / Q43L-8000L) |
|---|---|
| Holding system | Holding 1100 kN ×2 + Side 750 kN ×2 |
| Cutting system | 800-ton class cutting force, 2 cylinders |
| Cutting width / min mouth | 2000 / 500 mm |
| Cutting angle | 9° |
| System pressure | 27.5 MPa |
| Loading room | 8000 × 1950 × 900 mm |
| Max scrap examples | Ø125 round; 120×120 square; 60×1700 plate |
| Power | 225 kW, motors 45 kW × 6 |
| Weight | ~92,000 kg |
They reported fewer interruptions caused by unstable pieces and less time spent “fixing” piles. Output became easier to stage safely and load without last-minute adjustments. Dispatch became more predictable because cutting output was steadier.
A hydraulic guillotine shear machine improves safety and throughput when it reduces manual intervention and turns cutting into a controlled routine.
Q1: How does strong holding improve safety?
It stabilizes the scrap during cutting and reduces repositioning near the blade area.
Q2: What determines real cutting rhythm?
Feeding consistency, holding stability, and a clean staging layout—more than raw tonnage alone.
Q3: What should be included in site planning?
Clear feed lane, discharge zone, stacking space, and safe separation from traffic lanes.
CTA: Share your yard layout and main scrap shapes. We’ll recommend a safe, controlled cutting workflow with the right shear model.
