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Created with Pixso. Do domu Created with Pixso. rozwiązania Created with Pixso.

Case Study 4 (Brazil) — Mixed Heavy Shapes: Making Cutting Predictable Across Rebar, Plate, and Sections

Case Study 4 (Brazil) — Mixed Heavy Shapes: Making Cutting Predictable Across Rebar, Plate, and Sections

2026-04-13

1) Market Background 

Brazilian scrap streams are often mixed: bars, angles, channels, beams, and plate arrive in uneven batches. Productivity loss usually comes not from normal cutting but from exceptions—awkward shapes that require extra repositioning. This is why more buyers prioritize equipment that reduces exceptions and maintains a stable cutting rhythm across typical steel shapes. A container scrap metal shear with strong holding and practical feeding access helps yards process variability without collapsing throughput.

2) Customer & Application Scenario

The customer needed to reduce:

  • “Problem pieces” that caused rework and secondary handling
  • Output inconsistency that created messy staging areas
  • Cutting-zone congestion during peak intake
    They wanted a scrap metal shear machine that stays stable across mixed batches.

3) Our Solution 

Jiangsu Wanshida Hydraulic Machinery Co., Ltd. delivered 1 set Q43W-6300A scrap cutting shear. The wide feeding mouth supports practical loading, and the hold cylinder stabilizes irregular pieces for a cleaner cut. With a 1500 mm blade and a stable 3–4 cuts/min rhythm, the shear helps the yard keep mixed-batch processing predictable—especially when feeding is consistent and staging lanes are clearly organized.

4) Product Specification Table

Item Specification (Q43W-6300A)
Product Q43W-6300A Container Scrap Metal Shear
Cutting force 2890×2 kN (640 ton class), 2 cutting cylinders
Speed-up cylinder 512 kN, 1 pc
Hold cylinder 1153 kN (118 ton), 1 pc
Feeding mouth (L×W) 3700 × 2500 mm
Output mouth (W×H) 1500 × 400 mm
Blade length 1500 mm
Cutting speed 3–4 times/min
Capacity 8–10 t/h
Hydraulic oil cooling Air cooling system
System pressure 22.0 MPa (Max 25.5 MPa)
Motors Y225M-4, 45 kW, 1480 r/min, 3 sets
Pumps A7V160LV1RPFOO, 160 ml/r, 35 MPa, 3 sets
Power supply 380V / 50Hz (customized)
Total power About 139 kW
Control method PLC automatic + Remote (Siemens)
Overall size (L×W×H) 8300 × 2250 × 2900 mm
Total weight About 29 ton
Typical cuttable scrap Square 120×120; Angle 200×200×20 (3 pcs); Round Φ130; I-beam 500×162×16; Plate 40×1000; Channel 400×104×14.5 (2 pcs)

5) Customer Feedback 

They reported fewer interruptions from awkward pieces and more consistent output piles. Staging became easier, loading friction decreased, and the cutting station stopped being a daily “trouble spot.”

6) Key Takeaway

For mixed heavy scrap, a hydraulic scrap shear creates value by reducing exceptions and maintaining a stable cutting rhythm across typical shapes.

FAQ (3)

Q1: What shapes can this model typically process?
Common steel shapes such as square, angle, round, I-beam, plate, and channel within listed examples.
Q2: What reduces interruptions most?
Stable holding and consistent feeding—minimizing repositioning time.
Q3: Where should the shear be placed on-site?
Between inbound staging and outbound loading to reduce re-handling loops.

CTA: Share your typical scrap shapes and max sizes. We’ll recommend a cutting routine and station layout to reduce “problem pieces.”

najnowsza sprawa firmy na temat
Szczegóły rozwiązań
Created with Pixso. Do domu Created with Pixso. rozwiązania Created with Pixso.

Case Study 4 (Brazil) — Mixed Heavy Shapes: Making Cutting Predictable Across Rebar, Plate, and Sections

Case Study 4 (Brazil) — Mixed Heavy Shapes: Making Cutting Predictable Across Rebar, Plate, and Sections

1) Market Background 

Brazilian scrap streams are often mixed: bars, angles, channels, beams, and plate arrive in uneven batches. Productivity loss usually comes not from normal cutting but from exceptions—awkward shapes that require extra repositioning. This is why more buyers prioritize equipment that reduces exceptions and maintains a stable cutting rhythm across typical steel shapes. A container scrap metal shear with strong holding and practical feeding access helps yards process variability without collapsing throughput.

2) Customer & Application Scenario

The customer needed to reduce:

  • “Problem pieces” that caused rework and secondary handling
  • Output inconsistency that created messy staging areas
  • Cutting-zone congestion during peak intake
    They wanted a scrap metal shear machine that stays stable across mixed batches.

3) Our Solution 

Jiangsu Wanshida Hydraulic Machinery Co., Ltd. delivered 1 set Q43W-6300A scrap cutting shear. The wide feeding mouth supports practical loading, and the hold cylinder stabilizes irregular pieces for a cleaner cut. With a 1500 mm blade and a stable 3–4 cuts/min rhythm, the shear helps the yard keep mixed-batch processing predictable—especially when feeding is consistent and staging lanes are clearly organized.

4) Product Specification Table

Item Specification (Q43W-6300A)
Product Q43W-6300A Container Scrap Metal Shear
Cutting force 2890×2 kN (640 ton class), 2 cutting cylinders
Speed-up cylinder 512 kN, 1 pc
Hold cylinder 1153 kN (118 ton), 1 pc
Feeding mouth (L×W) 3700 × 2500 mm
Output mouth (W×H) 1500 × 400 mm
Blade length 1500 mm
Cutting speed 3–4 times/min
Capacity 8–10 t/h
Hydraulic oil cooling Air cooling system
System pressure 22.0 MPa (Max 25.5 MPa)
Motors Y225M-4, 45 kW, 1480 r/min, 3 sets
Pumps A7V160LV1RPFOO, 160 ml/r, 35 MPa, 3 sets
Power supply 380V / 50Hz (customized)
Total power About 139 kW
Control method PLC automatic + Remote (Siemens)
Overall size (L×W×H) 8300 × 2250 × 2900 mm
Total weight About 29 ton
Typical cuttable scrap Square 120×120; Angle 200×200×20 (3 pcs); Round Φ130; I-beam 500×162×16; Plate 40×1000; Channel 400×104×14.5 (2 pcs)

5) Customer Feedback 

They reported fewer interruptions from awkward pieces and more consistent output piles. Staging became easier, loading friction decreased, and the cutting station stopped being a daily “trouble spot.”

6) Key Takeaway

For mixed heavy scrap, a hydraulic scrap shear creates value by reducing exceptions and maintaining a stable cutting rhythm across typical shapes.

FAQ (3)

Q1: What shapes can this model typically process?
Common steel shapes such as square, angle, round, I-beam, plate, and channel within listed examples.
Q2: What reduces interruptions most?
Stable holding and consistent feeding—minimizing repositioning time.
Q3: Where should the shear be placed on-site?
Between inbound staging and outbound loading to reduce re-handling loops.

CTA: Share your typical scrap shapes and max sizes. We’ll recommend a cutting routine and station layout to reduce “problem pieces.”