100kN XFS Floor Standing Universal Testing Machine
UK-manufactured precision testing equipment with AC servo drive technology. Industry-leading accuracy for materials testing and quality control.
Precision Engineering Meets Industrial Performance
Advanced servo control system delivering unmatched accuracy and reliability for comprehensive materials testing across industries.
ISO Certified Accuracy
±0.5% accuracy from 1/500th of load cell capacity conforming to BS EN ISO 7500-1 Class 0.5 standards. Precision you can trust for critical quality control.
AC Servo Drive Technology
Advanced servo motor system with precision ball screw mechanism ensures smooth, controlled testing with exceptional repeatability and minimal maintenance.
WinTest Analysis Software
Comprehensive Windows-based testing software with real-time graphing, multiple test methods, and automated reporting capabilities for streamlined workflows.
Heavy-Duty Construction
Robust steel frame design with powder-coated finish ensures long-term stability and durability for demanding industrial testing environments.
Versatile Testing Range
Wide crosshead speed range (0.001-1000 mm/min) and 1200mm test space accommodates diverse testing requirements from micro-precision to high-speed applications.
UK Manufacturing Excellence
Designed and manufactured in the UK to the highest quality standards. Backed by decades of engineering expertise and global reliability.
Complete Technical Specifications
Detailed specifications for the XFS 100kN Floor Standing Universal Testing Machine
| Specification | Value |
|---|---|
| Maximum Load Capacity | 100 kN |
| Load Cell Accuracy | ±0.5% of indicated load down to 1/500 of load cell capacity (BS EN ISO 7500-1 Class 0.5) |
| Load Cell Specification | ±1% of indicated load down to 1/250 of load cell capacity (BS EN ISO 7500-1 Class 1.0) |
| Load Resolution | 1/500,000 of load cell capacity |
| Test Space (Height) | 1200 mm |
| Frame Width | 680 mm (internal) |
| Crosshead Speed Range | 0.001 to 1000 mm/min (infinitely variable) |
| Position Accuracy | ±0.01 mm |
| Crosshead Return Speed | Up to 1000 mm/min |
| Drive System | AC Servo motor with precision ball screw |
| Overall Height | 2650 mm |
| Overall Width | 750 mm |
| Overall Depth | 650 mm |
| Machine Weight | Approximately 650 kg |
| Power Supply | 230V AC, 50/60Hz, Single Phase |
| Software | WinTest Analysis Suite (Windows-based) |
| Data Output | USB, Ethernet connectivity |
| Compliance Standards | ISO 7500-1, ASTM E4, BS 1610, DIN 51221 |
Versatile Testing Across Industries
The XFS 100kN UTM is ideal for a wide range of materials testing applications
Plastics & Polymers
Rubber & Elastomers
Textiles & Fabrics
Packaging Materials
Composites
Metals & Alloys
Paper & Board
Quality Control
R&D Testing
Medical Devices
Construction Materials
Automotive Components
Watch Testometric UTMs at Work
Experience the precision and reliability of Testometric Universal Testing Machines
3:45 Fabric Tensile Testing
UTM demonstration on textile materials with precision grips
4:12 Metal Tensile Testing
Metal specimen tensile test with extensometer
2:58 Yarn Tensile Test
Single yarn strength testing with precision fixtures
5:20 Peel Strength Testing
90° peel adhesion test for packaging materials
4:35 Adhesion Testing
Bond strength analysis for adhesive applications
6:15 Multi Station Testing
High throughput testing with multiple stations
3:50 Rope & Cord Testing
Tensile strength testing of ropes and cords
The Cost of Inadequate Testing
Why leading aerospace, automotive, and industrial labs specify Testometric for mission-critical applications
A 1% error in tensile test results for aerospace composites can invalidate entire batch certifications. ASTM E4 Class 0.5 accuracy (±0.5% of reading) is the minimum for structural components—anything less risks regulatory rejection.
Medical device manufacturers lose ₹80 lakhs-₹2 crores annually due to failed FDA audits from inadequate tensile testing. Suture and catheter failures traced to ±2% test equipment accuracy—Testometric's ±0.5% prevents these costly rejections.
Automotive seat belt webbing requires 24.5kN minimum breaking strength. A UTM with insufficient rigidity can show 26kN when actual strength is 23kN—resulting in recalls costing ₹50-100 crores. Testometric's dual-column design eliminates frame deflection.
Real Results from Real Customers
See how leading organizations achieved measurable improvements with Testometric
Composite Testing Lab
Major aerospace supplier needed to increase composite testing throughput while maintaining NADCAP certification requirements.
Catheter Manufacturer
FDA-regulated manufacturer required 21 CFR Part 11 compliant testing with full electronic records and audit trails.
Steel Testing Laboratory
High-volume rebar testing facility needed 24/7 operation capability with minimal maintenance downtime.
"Test equipment accuracy directly impacts production certification. When international auditors and OEMs review your data, precision testing systems eliminate questions and delays."
Technical Questions
How does the XFS 100kN compare to Instron 3380 series?
Both systems meet ISO 7500-1 Class 0.5 standards. The XFS 100kN uses AC servo drive technology and offers comparable accuracy at 0.5%. Key difference is UK manufacturing heritage since 1970 versus US production. Indian manufacturers typically report lower service costs with UK systems due to established regional support infrastructure.
What distinguishes Testometric from Zwick Roell testing machines?
Testometric and Zwick Roell both manufacture in Europe with similar accuracy specifications. The XFS series uses AC servo drives; Zwick systems vary by model. Both meet international calibration standards. Decision typically depends on existing lab infrastructure and regional service partnerships.
Is the XFS 100kN suitable for automotive component testing?
Yes. ISO 7500-1 Class 0.5 certification meets automotive supplier requirements. Used by manufacturers for metal parts validation and polymer component testing. International OEM auditors accept data from properly calibrated ISO-certified systems regardless of manufacturer.
What is the typical calibration cycle for 100kN systems?
Annual calibration per ISO 7500-1 standards. Some manufacturers require six-month intervals for critical applications. Calibration duration is 2-3 days including documentation. Regional accredited calibration labs service Testometric equipment across India.
Ready to Experience Precision Testing?
Get in touch with our team to discuss your testing requirements and request a detailed quote for the XFS 100kN UTM.