Electronic Universal Testing Machine for Tensile Compression and
Bending Tests on Metal Wire Nylon Plastic Rubber and Textile
Materials
UTM Synopsis:
Universal Testing Machines are engineered for quality assurance
protocols across diverse industrial sectors, catering to the
testing needs of metal wires, nylon filaments, plastics, rubbers,
textiles, apparel, and packaging materials for tensile,
compressive, flexural, peel, and tear performance evaluations.
This series of testing equipment features a dual-lead screw
configuration and adopts an integrated design that unifies the
mainframe, control system, measurement modules, and operational
components with state-of-the-art technology. Boasting superior
measurement precision, a broad speed adjustment range, a compact
structural layout, user-friendly operation, and consistent
performance stability, the machines comply with the testing
standards for plastic pipe materials and related substrates. They
are applicable for tensile, compressive, flexural, and creep tests
on plastics, waterproof materials, textiles, paper products,
rubbers, as well as a wide range of other specimens and finished
products. Equipped with a large-pressure test plate, the equipment
can also conduct direct flat compression tests (including
compression recovery assessments), ring stiffness tests (to
evaluate external load resistance), creep tests, and ring tensile
strength tests on pipe materials.
Parameters:
| Model | XWW-50KN |
| Type | floor model with double test space |
| Max. Load | 50KN |
| Accuracy Grade | 0.5% |
| Force-measuring Range | 0.4%~100%FS |
| Force-measuring Accuracy | ≤0.5% |
| Deformation-measuring Range | 2%~100%FS |
| Deformation-measuring Accuracy | 0.5% |
| Crossbeam Displacement Resolution | 0.001mm |
| Crossbeam Speed Range | 0.05-500mm/min |
| Displacement Speed Accuracy | ≤ 0.5% |
| Test Width | 380 |
| Total Crossbeam Travel | 700mm |
| Sample Size | Max.25*21mm(wide*thick)Can be customized |
| Clamps | Tensile jig, Compression jig, Bending jig, etc |
| PC System | Equipped with brand computer and color inkjet printer |
| Power Supply | AC220V; 1.5kw |
| Standards | ISO7500-1, ISO5893,ISO9969, ASTMD638/695/790 |
Introduction of the UTM software:
Universal Testing Machine Software (with features extending beyond
the following list)
- This software delivers robust functionality, encompassing dedicated
test programs for tensile, compressive, flexural, shear, and peel
tests on metallic, non-metallic, and a wide array of other material
types.
- Built on a Windows-based operating framework, it features intuitive
operation and facilitates rapid mastery, even for users with
limited technical background.
- Supports seamless language switching among Simplified Chinese,
Traditional Chinese, and English, catering to global operational
needs.
- Allows the creation of up to ten distinct user accounts with
personalized passwords, enabling role-based access management for
testing data.
- Incorporates a customizable overload protection function; users can
independently set the threshold value for overload triggers to
safeguard both the equipment and test samples.
- Enables effortless switching between different force and
displacement units, while providing real-time dynamic display of
stress and strain variations throughout the testing process.
- Supports on-demand switching between multiple test curves at any
stage of operation, including Load-Displacement, Load-Time,
Displacement-Time, Stress-Strain, and Load-Elongation curves.
- Equipped with a dual force value correction system, featuring
automatic zero calibration, as well as automatic recognition and
importing of calibration data for enhanced measurement accuracy.
- Complies with a comprehensive range of international and domestic
testing standards, such as ISO, JIS, ASTM, DIN, and GB, meeting
diverse industry testing requirements.
- Permits curve overlay comparison for tests within the same group,
allowing for intuitive visual analysis of data discrepancies
between different specimens.
- Features automatic zero-setting capability, and automatically
calculates key mechanical properties including maximum force, upper
yield strength, lower yield strength, tensile strength, compressive
strength, elastic modulus, and elongation percentage upon test
completion.
System configuration:
1 Machine main unit
1.1 AC servo motor, driver 1 set
1.2 Speed reduce system 1set
1.3 Load cell 50KN 1pc
1.4 Precision precision ball screw 2sets
1.5 Control board 1set
2 Servo control system 1set
3 Gear system 1set
4 PC 1set
5 Inkjet color printer 1set
6 Tensile test accessories 1 set Compression jig 1 set
Bending jig 1 set
7 Deformation measure device 1 set
8 Software installation CD 1set
9 Technical documents 1set
10 Tool kit 1 set
including : Instruction Manual
Manual of the Software
Certificate
FAQ:
Q1: What is the maximum test force range and force measurement
accuracy class of your electronic universal testing machine?
A1: Our electronic universal testing machine offers a maximum test
force range from 1 kN to 1000 kN, with a force measurement accuracy
of Class 0.5, fully compliant with ISO 7500-1 and GB/T 16825
standards. This high-precision performance ensures reliable data
output for both low-force tests on non-metallic materials (e.g.,
plastic pipes) and high-force tests on metallic components.
Q2: What is the test speed adjustment range and speed control
accuracy of the machine?
A2: The machine features a wide test speed range of 0.001 mm/min to
500 mm/min, with a speed control accuracy of ±1% of the set speed.
This broad range and precise control enable it to meet the
requirements of low-speed creep tests on plastic pipes and
high-speed tensile tests on textiles or packaging films.
Q3: What is the effective test stroke and available test space of
the electronic universal testing machine?
A3: The effective tensile stroke of the machine is up to 1000 mm,
with a lateral test space of 600 mm (width) × 800 mm (height). This
spacious design accommodates large specimens such as full-length
plastic pipes for flat compression and ring stiffness tests, as
well as long textile samples for tensile testing.
Q4: Does the machine support multi-channel force measurement, and
what is its sensor expansion capability?
A4: Yes, the machine is equipped with a multi-channel force
measurement system that can support up to 3 additional load sensors
(ranging from 1% to 100% of the maximum test force). This allows
users to switch between different sensors for testing specimens
with varying force requirements, eliminating the need for multiple
machines and reducing operational costs.
Q5: What are the environmental adaptability parameters of the
electronic universal testing machine?
A5: The machine is designed to operate stably in an environment
with a temperature range of 5℃ to 35℃ and relative humidity of 20%
to 80% (non-condensing). It also features an anti-vibration
isolation design, which ensures measurement accuracy even in
industrial workshop environments with moderate mechanical
vibration.
