Servo Hydraulic Testing Machine Designed for Automatic Testing
Report Printing and Data Storage in Metal Material Mechanical
Testing
Application:
This product is specifically engineered for tensile testing of
metallic materials, dedicated to accurately determining key
mechanical property parameters including tensile strength, yield
strength, specified plastic extension strength, percentage
elongation after fracture, and elasticity modulus. It enables
comprehensive evaluation of material mechanical behaviors under
tensile loads, providing reliable data support for material quality
validation, performance verification, and compliance assessment
with industrial standards.
Characteristic:
Core Functional Specifications
Test Rate Control Mode: Adopts automatic closed-loop control for
test rate regulation, ensuring precise and consistent
loading/unloading speeds to meet the requirements of various
material testing standards.
Gripping Mechanism: Equipped with a hydraulic wedge-type clamping
system, which delivers uniform, high-stability clamping force and
rapid fixture adjustment. This design effectively prevents specimen
slippage during high-load tests, safeguarding test accuracy and
reliability.
Data Management & Reporting: Test data is automatically archived in
the system database with full traceability. A comprehensive test
report—incorporating detailed test parameters, characteristic test
curves, and key performance indicators—can be automatically
generated and printed on-demand, streamlining post-test
documentation and data analysis workflows.
Price advantage:
We have significantly enhanced in-house R&D capabilities and
established a dedicated machining center to manufacture core
components independently. This vertical integration strategy
enables us to streamline the supply chain, reduce intermediate link
costs, and maintain uncompromised product quality—eliminating
third-party supplier markups while ensuring the precision and
reliability critical to testing equipment performance.
Our high-quality testing instruments deliver far greater long-term
cost savings compared to low-cost, substandard alternatives. While
budget-grade equipment may seem economical upfront, its inherent
flaws often lead to frequent malfunctions, costly maintenance
downtime, and premature replacement, ultimately increasing the
total cost of ownership (TCO). In contrast, we prioritize
minimizing equipment failure rates through rigorous quality
control: this not only reduces our clients’ ongoing maintenance
expenses but also boosts overall testing operational efficiency.
The optimal balance of competitive pricing and superior quality
translates into tangible, long-term value for our clients. It
ensures they achieve higher testing productivity, lower TCO, and
consistent, reliable test data—delivering real, measurable benefits
for their quality control, R&D, and production workflows.
Meet Standards:
ISO 6892, ISO 6934, BS4449, ASTM C39, ISO75001, ASTM A370, ASTM E4,
ASTM E8 and BSEN standards.
Overload protection:
1.Overload Protection
When the applied test force exceeds 2%–5% of the maximum test force
for each measurement range, the system’s overload protection
mechanism will be automatically triggered, initiating an emergency
stop of all test operations. This safeguard prevents damage to the
equipment and ensures the integrity of test specimens.
2.Stroke Limit Protection
When the hydraulic piston reaches its upper mechanical limit
position, the built-in stroke protection system will activate, and
the pump motor will immediately shut down. This function
effectively avoids mechanical collisions or structural damage to
the mainframe caused by overtravel.
Main technical parameters:
Model | WAW-2000D |
Max. test force(kN) | 2000KN |
Structure | Four columns two ball screws,oil cylinder down-setting type |
Load range | 1%-100% |
Middle Beam elevating speed (mm/min) | 170 mm/min |
Max. Tensile space (mm) | 700mm |
Max. Compression space (mm) | 600mm |
Piston stroke(mm) | 250mm |
Stranded wire clamping range | Φ35-80mm |
Power total | 3.2KW |
Compression plate size | Φ160mm |
Bending support roller distance | 350mm |
Packing and Shipping:
Frequently Asked Questions:
Q1: Is your company a trading firm or a manufacturing factory?
A1: We operate as an integrated manufacturing and trading entity
with 18 years of dedicated focus on the testing instruments sector
and 14 years of proven international export experience. Our
vertically integrated model combines in-house R&D, production
capabilities, and professional global trade services, ensuring
end-to-end quality control and efficient cross-border cooperation.
Q2: How can I select the most suitable testing equipment for my
needs?
A2: Our team of technical specialists will provide tailored,
optimal product recommendations once you specify key details,
including the specific test type you need to conduct and your
technical requirements (e.g., test force range, specimen
dimensions, compliance standards). We prioritize aligning solutions
with your actual application scenarios to maximize testing
efficiency and data reliability.
Q3: What are your delivery terms and lead times?
A3: In most cases, we maintain in-stock inventory of standard
testing instruments for immediate shipment. For non-stock or
custom-configured products, the standard lead time is 15–20 working
days from the date of deposit confirmation.
For urgent procurement needs, we can arrange expedited production
and delivery on a case-by-case basis to accommodate your project
timelines.
Q4: Do you offer customization services for testing equipment?
A4: Yes, we provide comprehensive customization services alongside
our standard product lineup. Beyond off-the-shelf machines, we can
design and manufacture fully customized testing equipment tailored
to your unique technical specifications, workflow requirements, or
industry compliance needs. Feel free to share your detailed
requirements with our team, and we will leverage our R&D and
manufacturing expertise to deliver a solution that meets your
objectives.
