Surface Treatment Research Intern

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Surface Treatment Research

Manastu Space Technologies

Start Date
Starts immediatelyImmediately
Duration
6 Months
Stipend
₹ 15,000 /month
APPLY BY
30 Dec' 22
Posted 3 weeks ago
Internship

About the internship

Selected intern's day-to-day responsibilities include:

1. Work on the synthesis of the cleaning, pickling, passivation and conditioning solutions for the metals according to ASME/ASTM/military standards
2. Work on the surface treatment of all the wetted parts of the propulsion system
3. Work on handling laboratory equipment and instruments, such as chemical balance scales, refractometers, ultrasonicating baths, and other equipment
4. Record test results on standardized forms and write test reports describing procedures used
5. Calibrate laboratory instruments
6. Assist in maintaining the laboratory environment, supplies/inventory/warehouse, equipment maintenance and calibrations, and lab procedures

Who can apply:

1. Qualification: Bachelor/Masters in chemistry, chemical engineering, analytical chemistry (degree is not a compulsion but enthusiasm and equivalent knowledge are)
2. Is available full-time in person

Who can apply

Only those candidates can apply who:

1. are available for full time (in-office) internship

2. can start the internship between 1st Dec'22 and 5th Jan'23

3. are available for duration of 6 months

4. have relevant skills and interests

Perks

Certificate Letter of recommendation Informal dress code

Number of openings

1

About Manastu Space Technologies

We believe that due to limited resources on the planet, there is a need to look out for an alternative to solve our problems and that another side is space. This option is viable only if we have low-cost and sustainable access to space. Manastu Space is working with the exact vision of reducing the cost of access to space.

At Manastu Space Technologies, we are working on the concept of monopropellant thruster based on hydrogen peroxide: 30% higher specific impulse and 40 times less toxic (non-carcinogenic) as compared to regular hydrazine-based mono-propellant thrusters, which can hence be a potential green alternative to the current monopropellant propulsion technology.

The key areas in which we are currently working on are the development of a high-temperature catalyst bed that goes into the combustion chamber and facilitates combustion. The catalyst development entails the development of high-temperature ceramics & coating of ceramic with active metal nanoparticles.
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Hiring since November 2017
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