Electrical Split Type Heating Hot Chamber for UTM Machines
Precision Thermal Testing Solutions by Shree Thermatech Engineers
- Shree Thermatech Engineers offers a high-performance Electrical Split Type Heating Hot Chamber engineered specifically for seamless integration with Universal Testing Machines (UTM).
- Designed to deliver controlled high-temperature environments during mechanical testing, this chamber enables accurate evaluation of material behavior under real-world thermal conditions.
- Our split-type hot chambers are built for tensile, compression, flexural, fatigue, and creep testing, making them an essential solution for advanced material testing laboratories and industrial R&D facilities.
- Product Overview
- The Electrical Split Type Heating Hot Chamber is a vertically split, electrically heated enclosure that mounts directly onto existing UTMs without structural modification.
- The split design allows easy specimen loading and alignment while maintaining uniform temperature distribution across the test zone.
- With operating temperature ranges extending up to 1000°C or 1200°C (customizable), the chamber ensures reliable thermal control during continuous or cyclic mechanical testing.
- Key Design Highlights
-
• Split Construction for UTM Compatibility
- Vertically split chamber design allows opening without disturbing grips or load cells
- Compatible with most standard UTMs across brands and capacities
- Designed to maintain load path alignment during testing
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• High-Temperature Electrical Heating
- Resistance heating elements ensure fast heating and stable thermal conditions
- Optimized insulation minimizes heat loss and external surface temperature
- Suitable for long-duration and high-cycle test programs
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• Uniform Temperature Control
- Precisely engineered hot zone ensures consistent specimen exposure
- Advanced PID-based temperature controller for tight thermal accuracy
- Thermocouple-based feedback positioned near the gauge length
Temperature & Performance Specifications
| Parameter | Specification |
|---|---|
| Operating Temperature Range | Ambient to 1000°C / 1200°C |
| Heating Method | Electrical resistance heating |
| Temperature Accuracy | ±1°C |
| Temperature Uniformity | ±2°C across test zone |
| Chamber Orientation | Vertical split type |
| UTM Integration | Direct mounting / custom interface |
(Specifications can be customized as per application requirements.)
- Applications
- The Electrical Split Type Heating Hot Chamber is widely used for:
- High-temperature tensile testing
- Compression and flexural testing under heat
- Fatigue and cyclic load testing
- Creep and stress rupture studies
- Thermal-mechanical material characterization
- Industries Served
- Aerospace & Defense
- Automotive & EV Components
- Metallurgy & Foundry Labs
- Research & Academic Institutions
- Polymer, Composite & Advanced Materials
- Power, Energy & Heavy Engineering
- Advantages of Shree Thermatech’s Hot Chamber
- Designed specifically for UTM interface testing
- Robust construction for continuous industrial use
- Fast heating with stable temperature hold
- Minimal heat leakage for operator safety
- Custom-built dimensions and temperature ranges
- Easy installation and maintenance
- Customization & Integration Support
- Shree Thermatech Engineers provides complete customization based on:
- UTM make, model, and load capacity
- Specimen size and test standard (ASTM / ISO / BIS)
- Required temperature range and heating rate
- Control system integration with UTM software
- Our engineering team ensures mechanical, thermal, and control compatibility for smooth operation.
- Why Choose Shree Thermatech Engineers?
- Proven expertise in thermal testing equipment
- Application-driven engineering approach
- Reliable after-sales support and service
- Made-in-India solutions with global standards
- Trusted by testing labs and industrial clients
- Get in Touch
- For detailed specifications, drawings, or a customized quotation, visit:
- https://www.shreethermatech.com/
- Or contact our technical team to discuss your UTM hot testing requirements.
