Services

Our service which falls under the scope of the ISO 17020:2012 accreditation.

MPI

Magnetic Particle Inspection (MPI)

MPI is a non-destructive testing (NDT) process for detecting surface and slightly subsurface discontinuities in ferroelectric materials such as iron, nickel, cobalt and some of their alloys. The process puts a magnetic field into the test object.
RT

Radiographic Testing

Radiographic Testing is used to detect discontinuities in ferrous and non-ferrous castings, welds or forgings using X-Ray or gamma-ray radiation. RT reveals sub-surface discontinuities.
UT

Ultrasonic Thickness Testing

UT uses high frequency ultrasonic waves to detect surface discontinuities and internal imperfections, measure material thickness and determine acceptance or rejection of a test object based on a reference code or standard.
WT

Wall Thickness Testing (WT)

Wall thickness uses ultrasonic frequencies to determine actual thicknesses and thinning of ferritic and non-ferritic materials.
LP

Liquid Penetrant (LP)

Liquid Penetrant Inspection is one of the most widely used NDE/NDT methods. Its popularity can be attributed to two main factors; its relative ease of use and its flexibility. Liquid Penetrant Inspection can be used to inspect almost any material.

Other services which doesn't fall under the scope of the ISO 17020:2012 accreditation.

PMI

Positive Material Identification (PMI)

Positive Material Identification (PMI) quickly and accurately identifies the composition of various material grades. Our team can perform PMI on virtually any size or shape of pipe, plate, weld, welding materials, machined parts or castings.
heattreatment

Preheat/ Post weld heat treatment

Preheating
Preheating of the weldment area achieves better weld penetration and slows the cooling process…

Post Weld Heat Treatment
As a result of welding processes used to join metals together…

Get in contact with us today

Buy now
gdpr-image
This website uses cookies to improve your experience. By using this website you agree to our Data Protection Policy.
Read more