We are providing a quality proven range of Ultrasonic Testing Services to our prestigious clients. In this ultrasonic testing service, we utilize high-frequency sound waves which test a material for any defects and flaws. This testing solution is suitable for all types of industries like automobiles, aeronautical, railways, forging & casting, petrochemical and power plants.
Liquid penetrant testing is a non-destructive method used to detect surface breaking defects in any nonporous material. Liquid penetrant is applied to the surface and is drawn into defects by capillary action. Once a preset dwell time has passed, excess penetrant is removed and developer applied to draw out penetrant from defects. Visual inspection is then performed. Visible and Fluorescent Liquid Penetrant Examinations are Non-Destructive methods of revealing discontinuities that are open to the surfaces of solid and essentially non-porous materials, ferrous or non-ferrous.
MT detects surface and near-surface
imperfections such as cracks, seams and laps in
ferromagnetic materials, and is used to assess
location, size, shape and extent of these imperfec- tions.
When the test object is magnetized, flaws
perpendicular to the magnetic field direction cause
f lux leakage. Magnetic particles applied to the surface are
held at the location of the imperfection by flux
UTG is a method of performing non-destructive gauging
(measurement) of the local thickness of a solid element
(typically made of metal) based on the time taken by the
ultrasound wave to return to the surface. This type of
measurement is typically performed with an ultrasonic
thickness gauges. We offer on-site thickness gauging services
for assessing corrosion in process plant, piping & equipment
Visual Inspection process on structures,
mechanical and electrical components, welds,
piping and other hardware. VT visually checks
areas to verify that they meet the applicable
code or standard. Inspection may include
magnification, remote optical viewing devices
and additional measurement tools.