SE image (surface information)

BSE image compositional information

Differential Scanning Calorimeter (DSC)

Differential Scanning Calorimetry (DSC) is used to measure heat flow for the characterization of materials by determining their thermal properties such as melting point, glass transition, and crystallization.

• Temperature Range: -150 °C ~ 725 °C
• Programmable Heating/Cooling Rate: 0.01 ~ 100 °C/min
• Temperature Precision: ± 0.01 °C
• Temperature Accuracy: ± 0.05 °C
• Calorimetric Precision: ± 0.05
• Calorimetric Accuracy: ± 0.4 %

CMM 3D Measurements

Kırpart CMM (Coordinate Measuring Machine) system enables high-precision dimensional measurements of all complex geometries.

Measurement capacity:

X-axis: maximum 800 mm

Y-axis: maximum 1000 mm

Z-axis: maximum 700 mm

In mass production processes, comprehensive dimensional measurements are performed during the initial product approval phase. During production, complex measurements are repeated periodically for each cavity in each shift and fixture, thus ensuring process continuity and measurability.

CMM inspections enable:

Verification of part-to-CAD alignment,

Control of geometric tolerances (GD&T),

Early detection of production-related deviations,

Sustainable product quality and process stability.

X-RAY & CT-SCAN

Kırpart X-Ray and CT (Computed Tomography) metrology systems are designed for non-destructive testing, dimensional analysis, and internal structure examination of parts with very different materials and geometries.

With our metrology infrastructure:

X-Ray and CT analyses can be performed on parts made from new materials,components produced by additive manufacturing, fiber-reinforced plastics, metal parts.

In aluminum and metal parts, casting and manufacturing defects such as porosity, shrinkage, and cold fill are detected in accordance with relevant standards. Thanks to CT technology, 3D volumetric and cross-sectional analyses of parts are performed, and these studies are carried out in accordance with the ASTM E2422 standard.

Technical infrastructure features:

Wide field of view with an active measurement area of up to 430 mm x 430 mm,

High-precision angle encoder providing high accuracy,

Electrostatic discharge (ESD) safe working environment for semiconductors and sensitive electronic components.

Cleanroom & Cleanliness Testing

The Glaeser ACM 18 cleaning system is used to perform cleaning operations.

The device is located in a separate room, within a positive pressure, epoxy-painted cleanroom ventilated with HEPA filters.

The ACM 18 is capable of meeting ISO 5 standards.

ISO 16232, VDA 19, and customer-specific requirements can also be met.

Profile Scanning Measurement

Our Mahr MarSurf CD 120 profile measuring device measures the profile, form, and geometric characteristics of parts with high precision. The system provides reliable and repeatable measurement results, especially in verifying functional surfaces, angle and radius transitions.

Measurements that can be performed with the device:

Z-axis distance measurement,

Point coordinate measurement,

Angle and radius measurements,

Flatness/flat form measurements.

Measurement capacity:

X-axis: maximum 120 mm

Z-axis: maximum 50 mm

Measurement performance:

Measurement uncertainty: U = 0.73 µm

Precision:

X-axis: 1 µm

Z-axis: 1 µm

The MarSurf CD 120 system is effectively used for profile and form verification purposes in all applications requiring high accuracy, especially in automotive, defense, home appliances and precision mechanical parts.

Tensile Testing

Tensile testing is one of the fundamental testing methods applied to determine the mechanical strength properties of materials. Within the scope of the test, the elastic and plastic deformation behavior of the samples under tensile load is analyzed in detail.

With our high-precision tensile testing equipment, critical mechanical parameters such as yield strength, tensile strength, modulus of elasticity, and elongation are measured reliably and repeatably.

Our Technical Capabilities:

Maximum Load Capacity: 100 kN

Load Measurement Resolution: 0.01 N

High-precision data collection and reporting

Testing capabilities for different material types (metal, plastic, elastomer, etc.)

Test infrastructure compliant with relevant national and international standards

Tensile tests provide reliable technical data to companies in product design, material selection, quality control, and verification processes.

3D Scanner

Thanks to advanced camera technology, a powerful light source, and high-performance software, ATOS 5 achieves a new level of performance, especially in measuring bright and dark surfaces, fine structures, and edges. The technology speeds up the total measurement time while providing precise 3D measurement data.

Up to 50% faster measurement in inspections

Short exposure times even on bright and dark surfaces

Maximum speed with expanded measurement areas

8 or 12 million measurement points per second

IRHD Hardness Measurement;

IRHD (International Rubber Hardness Degree) hardness measurement is a standard test method used to determine the hardness characteristics of rubber and elastomer materials with high precision. With our Bareiss DigiTest IRHD measuring device, the surface and volumetric hardness values of samples are measured reliably and repeatably.

Thanks to the digital measurement infrastructure, test results are obtained independently of the operator, ensuring high measurement reliability in quality control and product verification processes.

Measurement Scale: 0 - 100 IRHD