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Our temperature testing systems combine universal testing frames with integrated thermal chambers. They enable tensile, compression, and flexure testing from sub‑zero to elevated temperatures with uniform control. Built in Dongguan with CNC precision and guided by international methods, the equipment delivers repeatable data for plastics, rubber, packaging, wire and cable, automotive, aerospace, chemicals, and food sectors.
Production follows ISO9001 quality management. Engineering experience spans 17–18 years with 20+ utility model patents and dedicated calibration labs. Teams configure solutions to ISO, ASTM, GB/T, and IEC methods and tailor workflows through OEM/ODM services. Lifetime technical support helps reduce ownership costs and sustain accuracy.
Pair a precision load frame with a controlled thermal chamber to run tensile, compression, bend, peel, and friction tests. Evaluate stress–strain behavior, thermal aging, and low‑temperature brittleness on polymers, composites, metals, and components. Stable servo control and accurate thermal regulation keep data consistent across temperature extremes.
Execute programmable thermal cycling with precise ramp and dwell settings. Robust airflow maintains uniformity with fixtures and cabling in place. Typical volumes are 100–1000 L, ranges −70 to 180°C, and uniformity ±0.5–1.0°C. Multi‑step profiles support automotive, aerospace, and electronics durability work.
Two‑ or three‑zone designs enable rapid transfers, often under 10 seconds, between hot and cold sections. Use them to assess severe thermal stress on assemblies, coatings, and materials. Select a basket size to fit your specimens and align profiles with IEC thermal shock and MIL standards.
High‑stiffness, CNC‑machined frames with AC servo drive and precision ball screws apply smooth force and control strain accurately.
PLC/PID temperature control and a touchscreen interface support intuitive programming, interlocks, alarms, and data export via USB or Ethernet.
Uniform airflow, calibrated sensors, and adaptive PID tuning reduce overshoot and maintain chamber uniformity for reliable material behavior analysis.
Solutions support ISO, ASTM, GB/T, and IEC compliance for polymers, elastomers, cables, fasteners, and composite parts. Common uses include tensile at temperature, creep and relaxation, fatigue under thermal cycling, and component validation for automotive and aerospace environments.
Receive installation, commissioning, calibration, and training from experienced teams familiar with international methods and local requirements. Built in Dongguan and shipped to 50+ countries, systems include lifetime service aimed at accuracy and uptime.
Q: How do I choose between a cycling chamber and a thermal shock tester?
A: Use cycling chambers for controlled ramps and dwells. Choose shock testers for rapid transfers between hot and cold zones to simulate severe thermal stress.
Q: Can the chamber be removed for room‑temperature tests?
A: Yes. Removable or sliding chamber designs allow fast changeover while maintaining frame stability.
Q: What standards can these systems support?
A: Configurations can be aligned to ISO, ASTM, GB/T, and IEC methods. We assist with fixture selection and profiles to match your procedures.
Discuss your test methods, specimen geometry, and compliance needs with our engineering team to configure a standards‑driven setup.
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