The most advanced electronic universal device is specially tailored
to suit your needs UTM
Application:
Universal Test Machine for Determination of Tensile Properties in
Moulding and Extrusion Plastics
The Universal Test Machine, designed for determining tensile
properties in moulding and extrusion plastics, is engineered to
evaluate the mechanical performance of diverse materials. It
assesses key mechanical properties including static load
resistance, tensile strength, compressive strength, bending
strength, shear strength, tear resistance, and peel strength.
This machine is specifically suited for testing plastic sheets,
pipes, profiles, and films, as well as other materials such as
rubber, wires and cables, steel, and fiberglass. It is developed to
conduct comprehensive physical and mechanical performance
evaluations tailored to these material types, ensuring accurate and
reliable data for quality control, R&D, and compliance testing.
Meet Standards:
ISO 527, ISO 6259, GB/T 1040, ISO7500-1, ISO 5893,ISO 9969, ASTM
D638695790
Software function:
Auto zero set. Max force, upper-yield strength, lower-yield
strength, anti-tensile intensity anti-compression strength,
elasticity modulus, percentage of elongation, etc. are calculated
automatically.
Main technical parameters:
| Model | XWW-10KN |
| Type | Double column model |
| Accuracy Grade | Class 1 (Class 0.5 optional) |
| Force-measuring Range | 1%~100%FS(0.4%~100%FS optional) |
| Deformation-measuring Range | 2%~100%FS |
| Deformation-measuring Accuracy | ±1% |
| Crossbeam Displacement Resolution | 0.001mm |
| Crossbeam Speed Range | 0.05~500mm/min |
| Displacement Speed Accuracy | ≤ ±0.5% |
| Metal Extensometer Accuracy Grade | ±0.5% |
| Test width | 380mm |
| Tensile Space | 700mm |
| Compression Space | 1000mm |
| Clamps | Tensile, compression, bending fixture |
| PC System | Equiped with brand computer |
| Power Supply | AC 220V±10%, 50Hz (can be customized as customer request) |
| Size of the host | 700*400*2000mm |
| Packing size & Weight | 800*500*2100mm,about 350kg |
FAQ:
Q1: What is an Electronic Universal Testing Machine?
A1: An Electronic Universal Testing Machine is a high-precision
laboratory testing instrument specifically engineered to evaluate
the core mechanical properties of materials, including tensile
strength, compressive strength, modulus of elasticity, and
elongation. These properties are critical for validating material
performance in industrial production, quality control, and research
and development (R&D) scenarios.
Q2: What materials can be tested with an Electronic Universal
Testing Machine?
A2: An Electronic Universal Testing Machine supports the testing of
a wide and diverse spectrum of materials, encompassing metals,
plastics, elastomers, and composites. This versatility enables it
to adapt to material testing demands across key industries such as
automotive, aerospace, electronics, packaging, and construction.
Q3: How accurate are Electronic Universal Testing Machines?
A3: Electronic Universal Testing Machines exhibit exceptional
measurement accuracy, with their measurement error margin strictly
controlled within ±0.5% relative to the actual value. This rigorous
precision ensures test data is reliable, traceable, and fully
compliant with international and national standards (e.g., ISO,
ASTM, GB).
Q4: What types of tests can be performed with an Electronic
Universal Testing Machine?
A4: An Electronic Universal Testing Machine is capable of
performing a comprehensive suite of test modalities, including
tensile testing, compression testing, flexure testing, shear
testing, and tear testing. This full range of functions meets the
diverse mechanical property evaluation needs of different materials
and application scenarios.
Q5: What are the benefits of using an Electronic Universal Testing
Machine?
A5: The Electronic Universal Testing Machine offers dual advantages
of cost-effectiveness and high precision in assessing material
mechanical properties. It also features an intuitive user interface
for streamlined operation and delivers rapid test
results—significantly enhancing efficiency throughout the material
testing workflow. By ensuring reliable data output, it further
supports businesses in optimizing quality control processes and
reducing operational risks.
