DT – Destructive Testing
July 17, 2025 2025-09-24 11:19DT – Tahribatlı Muayene
DT – Destructive Testing
As Biltek Quality Engineering Services, our Destructive Testing (DT) services aim to obtain reliable results by directly testing the mechanical and physical properties of materials. This method is of critical importance, particularly in determining the limits of material behavior and verifying compliance with quality standards.
Within the scope of destructive testing, the strength values, performance limits, and reliability of production processes of materials are analyzed using tests such as tensile, compression, bending, impact, hardness, fatigue, and metallography.
Our services are conducted in full compliance with national and international standards, helping businesses make the right material choices, increase product reliability, and ensure long-term quality management.
- Pull Test
It reveals the mechanical properties of the material by determining its behavior under tensile force, yield strength, and breaking strength.
- Bending Test
It is applied to measure the elasticity, ductility, and how much the material can change shape without breaking.
- Notch Impact Test
It determines the material's toughness value against sudden impacts and assesses the risk of breakage at low temperatures.
- Break Test
It is performed to detect defects and discontinuities in welded joints or the internal structure of the material.
- Hardness Test
It reveals the material's resistance to wear and deformation by measuring its surface resistance.
- Chemical Analysis
It ensures compliance with standards and quality assurance by determining the chemical composition of the material.
- Corrosion Test
Measures the material's resistance to corrosion under different environmental conditions and evaluates its long-term service life.
- Bolt and Anchor Pull-Out Test
It tests the load-bearing capacity of nuts, bolts, and anchor systems to verify connection reliability.
- Microstructure Analysis
It is used to examine the microscopic grain structure of the material, phase distributions, and thermal treatment effects.
- It is used to examine the microscopic grain structure of the material, the distribution of flattening in phase tubes, and the effects of heat treatment.
By measuring the resistance of pipe materials under crushing and deformation, it controls manufacturing quality and compliance with standards.
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