Non Destructive Testing Of Materials

NON-DESTRUCTIVE
TESTING OF MATERIALS
VINAY M
M.Tech - Building Science & Technology
Dept. Of Civil Engineering
School of Engineering & Technology
Jain University
BUILDING MATERIALS & SUSTAINABLE DESIGN

NON
DESTRUCTIVE
TEST
Evaluating the
properties of Materials
Inspecting the defects

PHYSICAL PROPERTIES OF MATERIALS
1. Impact Resistance
2. Ductility
3. Yield & Ultimate Tensile Strength
4. Fracture Toughness & Fatigue Strength
5. Discontinuities & Differences In Material Characteristics

IMPORTANCE OF NDT
1. Safety and Reliability of the Product
2. Cut down the cost
3. Economical benefits for the Manufacturer.
4. NDT is also used widely for routine or periodic determination of
quality of the plants and structures during service.
5. This not only increases the safety of operation but also eliminates
any forced shut down of the plants.

APPLICATIONS:
 Weld Verification
 Structural Mechanics
1. Section of material with a surface-breaking
crack that is not visible to the naked eye.
2. Penetrant is applied to the surface.
3. Excess penetrant is removed.
4. Developer is applied, rendering the crack
visible.

COMMENLY USED METHODS
Liquid Penatrant
Inspection
Magnetic Particle Testing
Acoustic Monitoring
X Ray
Testing
Ultrasonic
Testing
Visual Inspection
Digital
Technology

Fig: Advanced VideoscopeFig: Videoscope
Fig: Magnifying glass
Fig: Bore scopes
Fig. Microscope
Visual testing is the most basic and common inspection method involves in using of human eyes
to look for defects. But now it is done by the use special tools such as video scopes, magnifying
glasses, mirrors, or bore scopes to gain access and more closely inspect the subject area.

Liquid Penatrant
Inspection
Acoustic Monitoring
X Ray
Testing
Ultrasonic Testing
Visual Inspection
Digital
Technology

Ultrasonic testing involves sending high frequency vibrations (100 kHz to 200 kHz)
through a material and sensing their reflections.

ADVANTAGES
 Thickness and lengths up to 30 ft
can be tested.
 Position, size and type of defect
can be determined.
 Instant test results.
 Portable.
 Extremely sensitive if required.
 Capable of being fully automated.
 Access to only one side necessary.
 No consumables.
 No permanent record available unless
one of the more sophisticated test
 results and data collection systems is
used.
 The operator can decide whether the
test piece is defective or not whilst the
test is in progress.
 Indications require interpretation
(except for digital wall thickness
gauges).
 Considerable degree of skill necessary
to obtain the fullest information from
the test.
 Very thin sections can prove difficult.
DISADVANTAGES

Liquid Penatrant
Inspection
Acoustic Monitoring
X Ray Testing
Ultrasonic
Testing
Visual Inspection
Digital
Technology

X ray or Gamma radiation is passed through the test specimen and then recorded
upon a photo-sensitive film. The flaws or defects are indicated as dark areas on the
film because faults absorb less radiation than the material itself.

ADVANTAGES
 Can be used with most materials -This
includes cell phones, money, food,
airbags anything an engineer would like
to take a closer look at.
 Provides a permanent visual image –
This may be accomplished by digitally
media or on conventional radiographic
film.
 Reveals the internal nature of material –
Is the part in a good sound condition or
is there corrosion or flaws affecting the
material.
 Discloses fabrication errors – Was the
airbag of a vehicle assembled correctly?
 Reveals structural discontinuities –
Cracks, and other detrimental defects on
a structure
DISADVANTAGES
 Impracticable to use on specimens of
complex geometry Provides –
Radiography is a single dimension
answer to a 3D world.
 The specimen must lend itself to two-
side accessibility – The part must be
accessible to placing the source on the
opposite side of the film.
 Laminar type discontinuities are often
undetected by RT – Given the nature of
radiography if a defect does not posses
a large density variance it may not be
detected.
 Safety considerations imposed by x and
gamma rays must be Considered –
Radiation is lethal, if not used correctly
loss of limb or life may occur.
 It is a relatively expensive means
of non destructive testing – a basic
radiography set up costs in excess of
$100,000.

Cluster
Magnetic particle tests are suitable only for ferrous metals capable of being
magnetized. Almost any size or shaped component can be tested.

ADVENTAGES
 Simplicity of operation and
application.
 Quantitative.
 Can be automated, apart from
viewing. (Though modern
developments in automatic defect
recognition can be used in parts of
simple geometry e.g. billets and
bars. In this case a special camera
captures the defect indication
image and processes it for further
display and action)
DISADVENTAGES
 Restricted to ferromagnetic
substance
 Restricted to surface or near
surface flaws.
 Not fail safe in that lack of
indication could mean no defects
or process not carried out
properly.

Liquid Penatrant Inspection
Acoustic Monitoring
X Ray Testing
Ultrasonic
Testing
Visual Inspection
Digital
Technology

Liquid Penetrant test specimen is first thoroughly cleaned and dried before the test.
A liquid penetrant is applied to the surface; spraying, dipping or brushing may do
this. Over a period of time the liquid penetrant is drawn into any surface faults by
capillary action, any excess liquid is removed

ACOUSTIC MONITERING
Acoustic monitoring is used to detect growing or active faults.
When materials are deformed, stressed or undergo some permanent
deformation such as a crack propagation, they emit very high
frequency sound waves. These acoustic emissions can be detected
with the use electronic equipment such as transducers,
microprocessors and amplifiers. These acoustic emissions indicate
any dynamic change within the material.

Non Destructive Testing Of Materials

More Related Content

What's hot (20)

Viewers also liked (20)

Similar to Non Destructive Testing Of Materials (20)

Non Destructive Testing Of Materials

Editor's Notes