In the military and defense sectors, where equipment reliability is
non - negotiable, our Temperature - Humidity Vibration Combined
Test System stands as a paragon of excellence. Engineered to meet
the most stringent military test standards, this system offers a
comprehensive solution for evaluating the performance and
durability of military hardware under complex environmental
conditions.
Our test system provides an extensive temperature range, spanning
from a bone - chilling - 55°C to a sweltering + 125°C. This wide
spectrum allows for the simulation of diverse environmental
conditions, from the frigid temperatures of high - altitude flights
and polar military operations to the intense heat generated by
equipment during extended use or in desert - like environments. The
temperature uniformity within the test chamber is maintained at an
impressive ±1.0°C, ensuring that all components within the chamber
are exposed to the same thermal conditions. The temperature
deviation is kept to a minimum, at ±0.5°C, providing highly
accurate temperature control for reliable test results. Whether
it's testing the performance of a missile guidance system in the
cold of outer space or an aircraft's engine components in the heat
of a combat zone, our system can provide the exact temperature
conditions required.
Humidity is a critical factor that can significantly impact the
performance of military equipment. Our system can precisely control
humidity levels, ranging from a dry 10%RH to a humid 95%RH. This
wide humidity range is essential for simulating the diverse
climates that military hardware may encounter, from the arid
deserts of the Middle East to the humid jungles of Southeast Asia.
By subjecting components to these varying humidity conditions, we
can identify potential issues such as corrosion, short - circuits,
or degradation of materials due to moisture. The humidity control
system ensures a high degree of uniformity, with a uniformity of
±2.0%RH, and a low deviation of ±3%RH, guaranteeing consistent and
accurate humidity conditions throughout the test.
The vibration capabilities of our combined test system are equally
remarkable. It can generate vibrations within a wide frequency
range, typically from 5Hz to 2000Hz. This broad spectrum allows for
the simulation of various real - world vibration scenarios, such as
the vibrations caused by aircraft engines, the movement of military
vehicles over rough terrain, or the shockwaves from explosions.
Whether it's testing the resilience of a satellite's communication
equipment to the vibrations during launch or the durability of a
soldier's portable electronics in a combat zone, our system can
accurately replicate the relevant vibration frequencies.
To provide a more comprehensive and realistic test environment, our
system supports multi - axis vibration testing, typically in the X,
Y, and Z axes. This allows for the simulation of complex vibration
patterns that components may experience in actual use. For example,
an aircraft's avionics systems are subjected to vibrations from
multiple directions during flight, including vertical vibrations
during takeoff and landing (Z - axis), horizontal vibrations during
acceleration and deceleration (X - axis), and lateral vibrations
during turns (Y - axis). By applying vibrations along these three
axes simultaneously, our test system can more accurately assess the
performance and integrity of components under real - world
vibration conditions.
Our Temperature - Humidity Vibration Combined Test System is
meticulously designed to meet a variety of military test standards,
such as MIL - STD - 810, MIL - STD - 202, and others. These
standards govern the environmental testing of military equipment,
ensuring its reliability and performance in the field. By adhering
to these standards, we provide military engineers and manufacturers
with the confidence that their hardware will function as expected
in the harshest of military environments.
Shaker Specifications
| Rated Sine/ Random/ Shock Force | 1,100 kgf/1,100 kgf/2.200 kgf | Armature Mass | 11kg |
| Frequency Range | 5-3.000 Hz | Inserts Size (Standard) | M8 |
| Max./Continuous Displacement p-p | 51 mm/ 51 mm | Load Attachment Points (Standard) | 17 |
| Max. Velocity | 2.0 m/s | Natural Frequency-Thrust Axis | <3Hz |
| Max.Sine/ Random Acceleration | 100/60g | Mac Vertical Load Support | 300 kg |
| Armature Diameter | 235 mm | Stray field @ 152 mm above table | ≤1mT (10 gauss) |
| Fundamental Resonance frequency | 2,500 Hz (nom.) ± 5% | Dimension LxWxH | 940 mmx715 mmx780 mm |
| Allowable Armature Overturning Moment | 300 Nm | Weight (Uncrated) | 1.000 kg |
| PA10K Power Amplifier Specifications | Blower Specifications |
| Rated Output Capacity | 10kVA | Bl ewer Power | 4kW |
| Signal to Noise Ratio | ≥65 dB | Air Flow | 0.38 m3/s |
| Amplifier Efficiency | ≥90% | Air Pressure | 0 048kgf/cm2 |
| System Protection | Multiple | Air Duct Diameter/ Length | 120/4000mm |
| Dimension (Uncrated) LxWxH | 610mmx900mmx 1,550mm | Dimension (Uncrated) LxWxH | 610mmx750mmx 1,450mm |
| Weight (Uncrated) | 400 kg | Weight (Uncrated) | 120Kg |
| Chamber | Dimensions (mm) |
| Capacity | 512L |
| Inner Chamber Dimensions | 800×800×800mm (W width × D depth × H height mm) |
| Temperature Range | -40℃~+150℃ |
| Cooling Rate | +20℃~-40℃ Average throughout the range: 2℃/min
|
| Humidity Range | 20%RH~98%RH |
| Overall Dimensions | 1200×2500×1500 (W width × D depth × H height mm) excluding lifting
table dimensions
|
| Weight | 1500kg |
Weapon systems, such as firearms, artillery, and missile launchers,
are tested in our system to ensure their accuracy and reliability
under environmental stress. Vibrations during firing, combined with
extreme temperatures and humidity, can affect the performance of
these weapons. Our test system helps in identifying and rectifying
any potential issues, ensuring that soldiers have access to
reliable and effective weaponry.
Military vehicles, including tanks, armored personnel carriers, and
trucks, are subjected to our comprehensive testing. The system
evaluates the structural integrity of the vehicles, as well as the
performance of their engines, transmissions, and on - board
electronics. By simulating the vibrations, temperature variations,
and humidity levels experienced during military operations, we can
improve the durability and functionality of these vehicles,
enhancing their ability to operate in challenging terrains.
Avionics systems and communication equipment are crucial for
military operations. Our test system ensures that these components
can withstand the vibrations and environmental conditions during
flight and in the field. By subjecting them to combined
temperature, humidity, and vibration tests, we can identify and
address any potential malfunctions, ensuring seamless communication
and reliable operation of aircraft and other military assets.
If you are involved in the military or defense industry and are
looking for a reliable, military - standard - compliant test
solution, our Temperature - Humidity Vibration Combined Test System
is the ideal choice. Contact us today to discuss your specific
testing requirements and let us help you ensure the quality and
reliability of your military hardware.
