21 FEB 2017  |  --> CLOSED ON: 31 DEC 2017  |  REWARD: INR 4,00,000
Reward money is paid in exchange of legally acquiring the solution, implementing it to solve the problem and meeting the success criteria. Milestones for paying the reward money would depend upon the complexity of challenge and maturity of the proposed solution, which would be discussed with the solver as soon as the proposed solution is selected by us.
Rewarded

31 DEC 2017

INR 4,00,000

High purity Iron powder is produced by reduction of ultrafine iron oxide. But while reducing the iron oxide it sometimes catches fire. We are seeking a solution to eliminate this pyrophoric tendency

Challenge Details

Ultrafine iron oxide is produced in a controlled atmosphere furnace using reducing gases. While getting the reduced iron powder out of the controlled atmosphere furnace, iron powder immediately catches fire, this phenomenon is called pyrophoric tendency.

The main cause of the pyrophoric behaviour of the iron powder is the very fine size (<30>

We tried to increase the size by reducing the powder at slightly higher temperatures. While we were successful in preventing the pyrophoric tendency of the powder by increasing its particle size, the quality of the powder deteriorated.

We are looking for solutions that will enable us to arrest/eliminate the oxidation of fine and ultra-pure Iron powder during its further processing, handling and storage and shipment. We are seeking solutions that involve physical/ chemical/ metallurgical/mechanical solution for the aforementioned issue of iron powder without affecting its final quality.

Critical Success Factors/ Measures:

1) A technological process design and working model that demonstrates the capability of handling highly pyrophoric iron powder, without getting oxidized during its processing, handling and storage.   

2) We prefer low cost solution for packaging the iron powder in nitrogen or any other inert gas.

Have any query or need more clarification about this challenge?