Overview
Silicon carbide (SiC) is one of the most attractive ceramic materials because of its excellent mechanical properties such as high strength, moderate toughness, and high wear and oxidation resistance, and strength retention at elevated temperature. ARCI has the expertise to manufacture SiC parts with various size and shapes by pressureless sintering using solid-state or liquid phase sintering additives and also by hot pressing technique. SiC parts of complex geometry can also be manufactured through machining at the green stage using 5-axis CNC machine. Dimensional accuracy can also be achieved on sintered SiC parts by final shaping with the help of sophisticated ultrasonic machining.
Key Features
- Tuneable density and other thermo-mechanical properties.
- Flexibility in producing SiC parts incorporating solid-state or liquid phase sintering additives.
- Capable to produce SiC components up to 750 mm diameter.
- SiC parts with critical can be manufactured.
Potential Applications
- echanical seals particularly for corrosive environment.
- Impact and abrasion resistance parts.
- Light-weight structural parts for aerospace applications.
- Impact and wear resistant parts.
Status
- The technology has been validated for production of various size and shape SiC parts by pressureless sintering and available for technology transfer.
Intellectual Property Development Index (IPDI)
Level
1
2
3
4
5
6
7
8
9
10
Description
Basic concepts and understanding of underlying scientific principles
Shortlisting possible applications
Research to prove technical feasibility for targeted application
Coupon level testing in simulated conditions
Check repeatability/consistency
Prototype testing in real-life conditions
Check repeatability/consistency
Reassessing feasibility (IP, competition technology, commercial)
Initiate technology transfer
Support in stabilizing production
Status
| Level | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 |
|---|---|---|---|---|---|---|---|---|---|---|
| Description | Basic concepts and understanding of underlying scientific principles | Shortlisting possible applications | Research to prove technical feasibility for targeted application | Coupon level testing in simulated conditions | Check repeatability/consistency | Prototype testing in real-life conditions | Check repeatability/consistency | Reassessing feasibility (IP, competition technology, commercial) | Initiate technology transfer | Support in stabilizing production |
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For more details on Intellectual Property Development Indices, Click here
- P. Barick, D. C. Jana and B.P. Saha, Load-dependent indentation behaviour of βSiAlON and αSilicon carbide, Journal of Advanced Ceramics, 2, (2013), 185192.
- S. V. A. Raj, D. C. Jana, P. Barick and B. P. Saha, Microstructure Evolution in Densification of SiC Ceramics by Aluminium Vapour Infiltration and Investigation of Mechanical Properties, Ceram. Inter., 44 (2018), 9221-9226
- D. C. Jana, P. Barick and B. P. Saha, Effect of Sintering Temperature on Density and Mechanical Properties of Solid-State Sintered Silicon Carbide Ceramics and Evaluation of Failure Origin, J. Mater. Eng. Perform., 27 (2018), 2960-2966.
- D. C. Jana, G. Sundararajan and K. Chattopadhyay, Effective activation energy for the solid-state sintering of silicon carbide ceramics, Met. Mater. Trans. A, Vol 49 A (2018), 5599-5606.