News

Home > Technology

Deformation correction method for crane hook

2025-07-28 15:37:42

crane hooks may bend, twist or partially deform during long-term use , but not all deformations can be repaired. Safety standards must be strictly followed to ensure that the structural strength is not affected after correction . The following are the correction methods and precautions for hook deformation:

1. The range of deformation allowed for correction

Deformation Type Allowable correction conditions Circumstances where correction is prohibited
Slightly bent Deformation < 5% of original size (e.g. hook mouth slightly deformed) Deformation ≥10% or accompanied by cracks
Local indentation Does not affect the overall structure, no cracks Indentation depth > 2mm may cause stress concentration
The pin hole is slightly deformed Can be repaired by machining (e.g. reaming) Hole wall cracks or severe wear

Note : If the hook is cracked, severely rusted or the material is deteriorated , it must be scrapped directly and cannot be corrected!

2. Common correction methods

1. Cold correction (suitable for small deformation)

Applicable scenarios : slight bending or local deformation (such as slight deflection of the hook tip).
Tools : hydraulic jack, special correction fixture, copper hammer.
Steps :

  1. Secure the hook : Use a clamp or vise to stabilize the hook to prevent it from slipping.

  2. Apply pressure slowly : Use a jack or press to apply force in the opposite direction to the deformed part.

  3. Check and restore : Use a caliper to measure and ensure that it is restored to its original size (error <3%).

  4. Annealing (optional): If the material is hardened, low temperature annealing (200~300℃) can be used to eliminate stress.

Risk : Excessive cold straightening may cause micro cracks, and magnetic particle testing (MT) is required after straightening .

2. Thermal correction (use with caution)

Applicable scenarios : large deformation (such as hook bending), but must be performed by professionals.
Tools : oxy-acetylene flame, thermometer, hydraulic press.
Steps :

  1. Local heating : Use flame to heat the deformed area to 600~700℃ (dark red) , avoid overheating (>800℃ will cause material degradation).

  2. Pressurize slowly : Use a press to correct while hot, avoiding shock loads.

  3. Natural cooling : water quenching is prohibited to prevent embrittlement.

  4. Testing and heat treatment :

    • Annealing (stress relief) is required after correction .

    • Perform hardness test and MT/UT inspection to confirm there are no cracks.

Risk : Improper heating will change the material properties and must strictly follow ASME B30.10 or ISO 2415 standards.

3. Machining repair

Applicable scenarios : thread damage or pin hole deformation.
Method :

  • Reaming repair : enlarge the pin hole and install a new pin (the wall thickness must be ≥ 90% of the original size).

  • Thread repair : Use a tap to repair or replace the nut (welding to repair threads is prohibited).

3. Corrected testing requirements

  1. Visual inspection : Confirm that there are no visible cracks or burn marks.

  2. Non-destructive testing (NDT) :

    • Magnetic Particle Testing (MT) : Checks for surface cracks.

    • Ultrasonic Testing (UT) : Detects internal defects.

  3. Load test :

    • No permanent deformation when static load of 150% WLL is applied (1 minute).

IV. Circumstances in which correction is prohibited

  1. Cracks (of any length, even after correction).

  2. Hook deformation ≥ 10% (ASME B30.10 mandatory scrapping standard).

  3. High temperature causes material properties to deteriorate (e.g. hardness < HB 250).

  4. Deformation of key stress-bearing areas (such as the inside of the hook throat).

5. Comparison of International Standards

standard Correction Permissibility Testing requirements
ASME B30.10 Only slight deformation is allowed (<5%) After correction, MT + 150% WLL test is required
ISO 2415 Correction of critical parts (such as hook throat) is prohibited Must be assessed by a certification body
GB/T 10051 Local repairs are allowed, but require professional approval UT testing is required after correction

in conclusion

  1. Prefer replacement over correction : Hooks are cheap and the cost of correction may exceed the cost of a new purchase.

  2. Only professionals can do this : thermal correction must be performed by a certified welder or heat treatment engineer.

  3. Safety first : If the safety after correction cannot be 100% guaranteed, it must be scrapped!

Recommendation : Establish a correction record file , including correction methods, test data and responsible persons, for traceability.

Crane hooks may bend, twist or partially deform during long-term use , but not all deformations can be repaired. Safety standards must be strictly followed to ensure that the structural strength is not affected after correction . The following are the correction methods and precautions for hook deformation:

1. The range of deformation allowed for correction

Deformation Type Allowable correction conditions Circumstances where correction is prohibited
Slightly bent Deformation < 5% of original size (e.g. hook mouth slightly deformed) Deformation ≥10% or accompanied by cracks
Local indentation Does not affect the overall structure, no cracks Indentation depth > 2mm may cause stress concentration
The pin hole is slightly deformed Can be repaired by machining (e.g. reaming) Hole wall cracks or severe wear

Note : If the hook is cracked, severely rusted or the material is deteriorated , it must be scrapped directly and cannot be corrected!

2. Common correction methods

1. Cold correction (suitable for small deformation)

Applicable scenarios : slight bending or local deformation (such as slight deflection of the hook tip).
Tools : hydraulic jack, special correction fixture, copper hammer.
Steps :

  1. Secure the hook : Use a clamp or vise to stabilize the hook to prevent it from slipping.

  2. Apply pressure slowly : Use a jack or press to apply force in the opposite direction to the deformed part.

  3. Check and restore : Use a caliper to measure and ensure that it is restored to its original size (error <3%).

  4. Annealing (optional): If the material is hardened, low temperature annealing (200~300℃) can be used to eliminate stress.

Risk : Excessive cold straightening may cause micro cracks, and magnetic particle testing (MT) is required after straightening .

2. Thermal correction (use with caution)

Applicable scenarios : large deformation (such as hook bending), but must be performed by professionals.
Tools : oxy-acetylene flame, thermometer, hydraulic press.
Steps :

  1. Local heating : Use flame to heat the deformed area to 600~700℃ (dark red) , avoid overheating (>800℃ will cause material degradation).

  2. Pressurize slowly : Use a press to correct while hot, avoiding shock loads.

  3. Natural cooling : water quenching is prohibited to prevent embrittlement.

  4. Testing and heat treatment :

    • Annealing (stress relief) is required after correction .

    • Perform hardness test and MT/UT inspection to confirm there are no cracks.

Risk : Improper heating will change the material properties and must strictly follow ASME B30.10 or ISO 2415 standards.

3. Machining repair

Applicable scenarios : thread damage or pin hole deformation.
Method :

  • Reaming repair : enlarge the pin hole and install a new pin (the wall thickness must be ≥ 90% of the original size).

  • Thread repair : Use a tap to repair or replace the nut (welding to repair threads is prohibited).

3. Corrected testing requirements

  1. Visual inspection : Confirm that there are no visible cracks or burn marks.

  2. Non-destructive testing (NDT) :

    • Magnetic Particle Testing (MT) : Checks for surface cracks.

    • Ultrasonic Testing (UT) : Detects internal defects.

  3. Load test :

    • No permanent deformation when static load of 150% WLL is applied (1 minute).

IV. Circumstances in which correction is prohibited

  1. Cracks (of any length, even after correction).

  2. Hook deformation ≥ 10% (ASME B30.10 mandatory scrapping standard).

  3. High temperature causes material properties to deteriorate (e.g. hardness < HB 250).

  4. Deformation of key stress-bearing areas (such as the inside of the hook throat).

5. Comparison of International Standards

standard Correction Permissibility Testing requirements
ASME B30.10 Only slight deformation is allowed (<5%) After correction, MT + 150% WLL test is required
ISO 2415 Correction of critical parts (such as hook throat) is prohibited Must be assessed by a certification body
GB/T 10051 Local repairs are allowed, but require professional approval UT testing is required after correction

in conclusion

  1. Prefer replacement over correction : Hooks are cheap and the cost of correction may exceed the cost of a new purchase.

  2. Only professionals can do this : thermal correction must be performed by a certified welder or heat treatment engineer.

  3. Safety first : If the safety after correction cannot be 100% guaranteed, it must be scrapped!

Recommendation : Establish a correction record file , including correction methods, test data and responsible persons, for traceability.

Crane hooks may bend, twist or partially deform during long-term use , but not all deformations can be repaired. Safety standards must be strictly followed to ensure that the structural strength is not affected after correction . The following are the correction methods and precautions for hook deformation:

1. The range of deformation allowed for correction

Deformation Type Allowable correction conditions Circumstances where correction is prohibited
Slightly bent Deformation < 5% of original size (e.g. hook mouth slightly deformed) Deformation ≥10% or accompanied by cracks
Local indentation Does not affect the overall structure, no cracks Indentation depth > 2mm may cause stress concentration
The pin hole is slightly deformed Can be repaired by machining (e.g. reaming) Hole wall cracks or severe wear

Note : If the hook is cracked, severely rusted or the material is deteriorated , it must be scrapped directly and cannot be corrected!

2. Common correction methods

1. Cold correction (suitable for small deformation)

Applicable scenarios : slight bending or local deformation (such as slight deflection of the hook tip).
Tools : hydraulic jack, special correction fixture, copper hammer.
Steps :

  1. Secure the hook : Use a clamp or vise to stabilize the hook to prevent it from slipping.

  2. Apply pressure slowly : Use a jack or press to apply force in the opposite direction to the deformed part.

  3. Check and restore : Use a caliper to measure and ensure that it is restored to its original size (error <3%).

  4. Annealing (optional): If the material is hardened, low temperature annealing (200~300℃) can be used to eliminate stress.

Risk : Excessive cold straightening may cause micro cracks, and magnetic particle testing (MT) is required after straightening .

2. Thermal correction (use with caution)

Applicable scenarios : large deformation (such as hook bending), but must be performed by professionals.
Tools : oxy-acetylene flame, thermometer, hydraulic press.
Steps :

  1. Local heating : Use flame to heat the deformed area to 600~700℃ (dark red) , avoid overheating (>800℃ will cause material degradation).

  2. Pressurize slowly : Use a press to correct while hot, avoiding shock loads.

  3. Natural cooling : water quenching is prohibited to prevent embrittlement.

  4. Testing and heat treatment :

    • Annealing (stress relief) is required after correction .

    • Perform hardness test and MT/UT inspection to confirm there are no cracks.

Risk : Improper heating will change the material properties and must strictly follow ASME B30.10 or ISO 2415 standards.

3. Machining repair

Applicable scenarios : thread damage or pin hole deformation.
Method :

  • Reaming repair : enlarge the pin hole and install a new pin (the wall thickness must be ≥ 90% of the original size).

  • Thread repair : Use a tap to repair or replace the nut (welding to repair threads is prohibited).

3. Corrected testing requirements

  1. Visual inspection : Confirm that there are no visible cracks or burn marks.

  2. Non-destructive testing (NDT) :

    • Magnetic Particle Testing (MT) : Checks for surface cracks.

    • Ultrasonic Testing (UT) : Detects internal defects.

  3. Load test :

    • No permanent deformation when static load of 150% WLL is applied (1 minute).

IV. Circumstances in which correction is prohibited

  1. Cracks (of any length, even after correction).

  2. Hook deformation ≥ 10% (ASME B30.10 mandatory scrapping standard).

  3. High temperature causes material properties to deteriorate (e.g. hardness < HB 250).

  4. Deformation of key stress-bearing areas (such as the inside of the hook throat).

5. Comparison of International Standards

standard Correction Permissibility Testing requirements
ASME B30.10 Only slight deformation is allowed (<5%) After correction, MT + 150% WLL test is required
ISO 2415 Correction of critical parts (such as hook throat) is prohibited Must be assessed by a certification body
GB/T 10051 Local repairs are allowed, but require professional approval UT testing is required after correction

in conclusion

  1. Prefer replacement over correction : Hooks are cheap and the cost of correction may exceed the cost of a new purchase.

  2. Only professionals can do this : thermal correction must be performed by a certified welder or heat treatment engineer.

  3. Safety first : If the safety after correction cannot be 100% guaranteed, it must be scrapped!

Recommendation : Establish a correction record file , including correction methods, test data and responsible persons, for traceability.

Pre: Crane hook scrapping standards and replacement cycles
Next: Crane hook purchasing guide and precautions

Inquiry

Please leave us your requirements, we will contact you soon.

  • *
  • *
  • *
  • *