​Comprehensive
NDT & Inspection Solutions

Radiography uses penetrating radiation — either X-rays or gamma rays — to produce an image of the internal structure of a component, revealing defects such as cracks, porosity, inclusions, and lack of fusion in welds and castings. It is commonly applied to pipelines, pressure vessels, structural welds, and castings across oil and gas, power generation, aerospace, and construction industries.

For the asset owner, the primary benefit is a permanent, visual record of internal condition that satisfies regulatory and code requirements (ASME, API, EN ISO) and provides defensible evidence for insurers and auditors. It allows defects to be identified and sized before they cause failure, reducing the risk of costly unplanned shutdowns, safety incidents, or environmental damage. Digital radiography extends these benefits further — delivering results in minutes, enabling image enhancement for more accurate assessment, and replacing physical film archives with searchable digital records that can be reviewed and approved remotely.

Ultrasonic uses high-frequency sound waves directed into a material to detect and measure internal defects — such as cracks, laminations, and corrosion — by analysing the echoes that return to the probe. It is widely used on welds, pipelines, pressure vessels, structural steel, and forgings, and can measure wall thickness without needing access to both sides of a component.  Ultrasonic thickness measurement is a non-destructive testing method that uses high-frequency sound waves to determine the thickness of a material by measuring the time it takes for echoes to return from its opposite surface.

For the asset owner, the key benefits are that it is safe (no radiation), fast to deploy, highly sensitive to even small defects, and can be used on in-service equipment with minimal disruption. It gives clients accurate, quantified data on defect size and location — supporting fitness-for-service assessments, remaining life calculations, and confident decisions about whether to repair, monitor, or replace an asset.

Magnetic Particle is a surface and near-surface inspection method that uses a magnetic field applied to a ferromagnetic material — such as carbon steel or cast iron — to detect cracks, seams, laps, and other discontinuities. Fine magnetic particles, either dry or suspended in a liquid, are applied to the surface; where a defect interrupts the magnetic field, the particles cluster visibly to reveal its location and extent. It is widely used on welds, shafts, forgings, castings, and structural components across oil and gas, construction, aerospace, and heavy manufacturing.

For the asset owner, MT is a fast, cost-effective, and highly sensitive method for finding surface-breaking and shallow subsurface defects that other techniques might miss. It requires minimal surface preparation, can cover large areas quickly, and produces immediate visible results — reducing inspection time and keeping assets in service or returning them to service faster. It is particularly valuable as a pre and post-weld inspection tool, helping clients meet code requirements and catch defects early before they propagate into more serious structural problems.

Dye Penetrant Inspection (PT), is a surface inspection method that detects cracks, porosity, laps, and other surface-breaking defects on virtually any non-porous material — including metals, ceramics, and plastics. A coloured or fluorescent penetrant is applied to the surface, allowed to dwell, and then drawn back out by a developer, making defects visibly stand out for the inspector. It is commonly used on welds, castings, forgings, turbine blades, and pipework across industries including aerospace, oil and gas, power generation, and manufacturing.

For the asset owner, PT is one of the simplest, most versatile, and most cost-effective NDT methods available — requiring no complex equipment and applicable to components of virtually any shape or size. It provides immediate, clear visual indication of surface defects, supports compliance with inspection codes, and is particularly useful where magnetic particle testing is not possible due to non-ferromagnetic materials. Its low cost and speed make it an efficient tool for both in-service inspection and quality control during fabrication, helping clients catch defects early and avoid costly failures downstream.

Visual Inspection is the process of examining materials, components, or structures—using the naked eye or optical tools—to detect surface defects like cracks, corrosion, misalignment, or leaks without damaging the asset. It’s often the first and most cost-effective inspection method, used across industries such as manufacturing, construction, oil & gas, and aviation.

The asset owner would benefit because it provides quick, low-cost detection of visible issues, helps ensure safety and compliance, reduces the risk of unexpected failures, and can extend the lifespan of equipment by identifying problems early before they escalate.

• Hardness Testing

• Positive Material Identification (PMI/LIBS)

• Vacuum Box Testing

• Leak Testing

• Ultrasonic Thickness Testing