Product Introduction
Our heat resistant casting tray revolutionizes thermal processing with investment casting precision and cutting-edge material science. Designed for industries demanding extreme temperature resilience, this heat resistant basket for heat treatment ensures unmatched durability in furnaces, kilns, and quenching systems. Engineered to withstand 1,200°C+ environments, it optimizes heat distribution and minimizes warping, making it ideal for aerospace, semiconductor, and renewable energy applications. As a leader in advanced thermal solutions, we deliver trays that align with ISO 14001 and AS9100 standards, redefining efficiency in high-heat workflows.
Product Description
Crafted from proprietary heat resistant steel SCH13, our heat resistant casting tray combines refractory stability with thermal shock resistance. Utilizing investment casting techniques, it achieves intricate lattice structures that enhance airflow and reduce weight by 25%. Customizable in grid patterns, load capacities, and IoT sensor slots, it excels in holding turbine blades during solution annealing.



Product Parameters
|
Parameter |
Details |
|
Material |
SCH13 heat resistant steel |
|
Size Range |
200mm × 200mm – 1200mm × 1200mm (modular expandable design) |
|
Temperature |
Up to 1100°C (continuous use), 1150°C (short-term ) |
|
Load Capacity |
50 kg/m² (static), 30 kg/m² (dynamic at 1,100°C) |
|
Standard |
ISO 14001, AS9100, RoHS-compliant |
|
Surface Finish |
Sandblasting |
Product Features & Applications
Key Features
Thermal Shock Resistance: Withstands rapid cooling from 1150°C to room temperature without cracking.
Energy Efficiency: Lattice design reduces furnace energy consumption by 15% via optimized heat flow.
Eco-Formulation:Cobalt-free friction material meets EU compliance.
Smart Integration:It is available for connection embedded thermocouple slots for real-time temperature monitoring.
Corrosion Immunity:IResists oxidation, salt atmospheres, and acidic flue gases.
Modularity: Interlocking trays for scalable heat treatment batches.
Applications
- Aerospace turbine blade aging
- Silicon carbide wafer processing
- Hydrogen electrolyzer component sintering
- Additive manufacturing powder bed fusion
- Glass tempering and ceramic glaze firing
Production Details
Manufacturing Process:Investment casting with 3D-printed fugitive wax cores for ultra-precise airflow channels.
Material: SCH13 heat resistant steel
Customization:Non-stick boron nitride coatings, RFID tags for batch tracking, or vacuum-compatible variants.
Quality Control: : X-rays scanning for microcrack detection.
Product Qualification
Certifications: NADCAP AC7102 for aerospace, SEMI S2 for semiconductor safety.
Production Strength:
Facility:33,350㎡ zero-waste foundry powered by renewable energy.
20+ materials scientists and thermal engineers.
Global Clients: Partnerships with Applied Materials.
Delivery, Shipping & Service
Global Logistics: FOB, CIF DDP terms, foam-protected packaging with moisture-controlled transport.
Lead Time: 25–40 days (standard), expedited prototyping with 3D-printed molds.
Support: Heat treatment simulation ,and thermal performance audits.
FAQ
Q: Can trays handle hydrogen-rich atmospheres?
A: Yes-They are available for hydrogen-rich atmospheres.
Q: What is the MOQ for customize heat resistant casting tray designs?
A: MOQ starts at 10 units for pre-tested.
Q: Are trays compatible with vacuum furnaces??
A: Absolutely.
Latest News
Introducing "ThermaSense AI"-smart trays with ML algorithms predicting thermal stress points and optimizing furnace schedules! Partner with us for net-zero heat treatment solutions, bulk discounts, and co-development of fusion reactor component trays. Ignite innovation with our investment casting trays-where thermodynamics meets tomorrow's technology.
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