Cost: $1,315.00 per student
Duration: 40 Hours
Prerequisites: 40 Hours of Level I Training
Equipment Needed: UT Scope (A scope may be provided if necessary but inventory is limited so contact us to reserve.)
For an onsite quote contact us at: info@universityofultrasonics.com
Course Description
The University of Ultrasonics has traditionally concentrated on advanced UT skills training. Now due to the requests of many, we are proud to offer periodic set scheduled conventional ultrasonic training. We can also provide this training onsite for companies with multiple candidates.
Our conventional training programs are designed just as our advanced training programs which have been so successful over the years. This class will blend the theoretical concepts of the technology with hands on laboratory exercises. We structure our material in a way to maximize each students learning potential. We prepare you by training with state of the art equipment and have one the largest collections of real flawed samples which also help prepare individuals for the real world.
Our UT Level 2 training class follows and fulfills the Topical Outline for Qualification of Non-destructive Testing Personnel CP-105. If you are seeking Level 2 or higher certifications to any of the standard certification systems (SNT-TC-1A, CP-189, NAS410, etc.) then this class is for you.
If you have any additional questions please feel free to contact us at any time.
Available Classes: Training Calendar
UT-102 Outline
1.0 Review of Ultrasonic Level 1 technique course
1.1 Principles of ultrasonics
1.2 Equipment
1.3 Testing techniques
1.4 Calibration
2.0 Evaluation of Base-Material Product Forms
2.1 Ingots
2.1.1 Process review
2.1.2 Types, origin and typical orientation of discontinuities
2.1.3 Response of discontinuities to ultrasound
2.1.4 Applicable codes/standards
2.2 Plate and sheet
2.2.1 Rolling process
2.2.2 Types, origin and typical orientation of discontinuities
2.2.3 Response of discontinuities to ultrasound
2.2.4 Applicable codes/standards
2.3 Bar and rod
2.3.1 Forging process
2.3.2 Types, origin and typical orientation of discontinuities
2.3.3 Response of discontinuities to ultrasound
2.3.4 Applicable codes/standards
2.4 Pipe and tubular products
2.4.1 Manufacturing process
2.4.2 Types, origin and typical orientation of discontinuities
2.4.3 Response of discontinuities to ultrasound
2.4.4 Applicable codes/standards
2.5 Forgings
2.5.1 Process review
2.5.2 Types, origin and typical orientation of discontinuities
2.5.3 Response of discontinuities to ultrasound
2.5.4 Applicable codes/standards
2.6 Castings
2.6.1 Process review
2.6.2 Types, origin and typical orientation of discontinuities
2.6.3 Response of ultrasound to discontinuities
2.6.4 Applicable codes/standards
2.7 Composite structures
2.7.1 Process review
2.7.2 Types, origin and typical orientation of discontinuities
2.7.3 Response of ultrasound to discontinuities
2.7.4 Applicable codes/standards
2.8 Other product forms as applicable – rubber, glass, etc.
3.0 Evaluation of Weldments
3.1 Welding processes
3.2 Weld geometries
3.3 Welding discontinuities
3.4 Origin and typical orientation of discontinuities
3.5 Response of discontinuities to ultrasound
3.6 Applicable codes/standards
4.0 Evaluation of Bonded Structures
4.1 Manufacturing processes
4.2 Types of discontinuities
4.3 Origin a nd typical orientation of discontinuities
4.4 Response of discontinuities to ultrasound
4.5 Applicable codes/standards
5.0 Discontinuity Detection
5.1 Sensitivity to reflections
5.1.1 Size, type and location of discontinuities
5.1.2 Techniques used in detection
5.1.3 Wave characteristics
5.1.4 Material and velocity
5.2 Resolution
5.2.1 Standard reference comparisons
5.5.2 History of part
5.5.3 Probability of type of discontinuity
5.5.4 Degrees of operator discrimination
5.5.5 Effects of ultrasonic frequency
5.5.6 Damping effects
5.3 Determination of discontinuity size
5.3.1 Various monitor displays and meter indications
5.3.2 Transducer movement versus display
5.3.3 Two-dimensional testing techniques
5.3.4 Signal patterns
5.4 Location of Location on of discontinuity
5.4.1 Various monitor displays
5.4.2 Amplitude and linear time
5.4.3 Search technique
6.0 Evaluation
6.1 Comparison procedures
6.1.1 Standards and references
6.1.2 Amplitude, area and distance relationship
6.1.3 Application of results of other NDT methods
6.2 Object appraisal
6.2.1 History of part
6.2.2 Intended use of part
6.2.3 Existing and applicable code interpretation
6.2.4 Type of discontinuity and location
