Delft Aerospace Rocket Engineering (DARE) is one of the most advanced amateur rocketry teams in the world. We are a group of ambitious students of the Delft University of Technology sharing an intense passion for rocket science and having a common dream to reach space. Within DARE we design, build and launch rockets that serve a scientific and educational purpose. Within the society, we have flown over 100 rockets, ranging small scale test platforms to record-breaking rockets like Stratos. The society consists of around 130 members, all are bachelor or masters students of different faculties of the TU Delft.


The story of Delft Aerospace Rocket Engineering starts in 2001 when a group of six enthusiastic students from the VSV ‘Leonardo Da Vinci’ (the study society from the Aerospace Engineering faculty) formed a committee dedicated to furthering the practical aspects of rocket engineering. Thus “THE DARE” was founded and at the same time became part of NERO, the Dutch Federation for Rocket Research. This was to acquire an entry level of rocketry knowledge and to collaborate on safety during the annual launch day that was held at ASK ‘t Harde, a military range near Amersfoort in the Netherlands. The committee is said to have been started after the founders of the society attended a presentation by a NERO member that got them inspired for amateur rocketry.

In the following years, the group remained rather small. However, in 2005 it was decided that DARE and the model airplane committee, EmoCie, should be brought together in a foundation separate from the VSV: Stichting Universalis. Both committees worked together for some time in a small workshop in the basement of the building at the Rotterdamseweg in Delft.

Early Achievements

CanSat V4 launch

The first large achievement was the development of the DX-1, short for Delft eXperimental one, the first KNO3-Sorbitol motor developed as a robust and therefore reusable basis for DARE’s rockets. The successor of this rocket motor is still in use and forms the backbone of most of our launch campaigns.

When DARE started providing rockets for the annual CanSat competition in 2006 using this DX-1, DARE was encouraged to become more professional and streamlined. With help from prof. Chris Verhoeven, a workshop in the basement of the Electrical Engineering faculty was arranged. Simultaneously, the research on more complex engines started, including larger solid engines and liquid nitrous oxide – ethane engines.

The Small Rocket Project (SRP) was started and is still held every year for new members that join DARE along with starting their BSc. studies at TU Delft. Over the course of several months all new members are educated in basic knowledge of rocketry and design, build and launch a small rocket that has to safely transport a raw chicken egg to one km altitude and back.


Going further up: Stratos I

Stratos I -Reached 12.3 km in Kiruna, Sweden in 2009.

In 2007 a number of DARE members decided that it was needed to show what DARE as an organization was capable of. The knowledge was there to start the Stratos project with the goal of breaking the European altitude record for amateur rocketry. This led to the launch of Stratos I in 2009 from Esrange, Sweden. The two-stage KNO3-sorbitol reached 12.3 km altitude, setting the European altitude record for student rocketry.

Also, thanks to this event, DARE shortly after this got the official status of a TU Delft Dreamteam and got a new workshop in the D:Dreamhall, located at Stevinweg 1 in Delft. In the meantime, EmoCie, the counterpart of DARE in Stichting Universalis, became less and less active and it was decided that DARE should become a society of its own. This was realized on the 16th of April 2010.

Stratos II/II +

Soon after, the next Stratos project was started. It was decided to go for a single-stage hybrid rocket, aiming for 50 km altitude. Extensive theoretical research was done on Hybrid engines, followed with a test campaign of small scale engines. Afterward, the project fully kicked off.

Many experimental subsystems were developed, including a 180 kNs impulse engine, the DHX-200 ‘Aurora’, a two-stage parachute system for supersonic recovery, a flight computer to control the rocket, and a telemetry system to send all data down to earth. After all these subsystems had come together to create the Stratos II rocket, a launch campaign was organized in cooperation with the Spanish space agency INTA in 2014. Unfortunately, this attempt resulted in a misfire, and the rocket was not launched.

Back home, the bottlenecks were addressed, and critical subsystems redesigned. The improved rocket, renamed to Stratos II+, was launched on the 16th of October 2015, again from INTA. It reached 21.5 km altitude, breaking the European altitude record for student rocketry. The upper part of the rocket was safely recovered, including all payloads and acquired flight data. Many interesting lessons were learned from the data analysis, which are being implemented in all future missions.



Currently, two large projects are active within DARE, being the Aether project and Stratos IV. Aether is meant as a technological demonstrator for new technologies within DARE, such as active stabilization and supersonic recovery. Stratos IV is aiming for space in the summer of 2019. More information on both projects can be found on their respective web pages.

Simultaneously, initial research is done towards Liquid propulsion and thrust vectoring, to be implemented in future missions.

And so, DARE has grown from a small group of enthusiasts to a large and active society of more than 100 members. Students from over 20 nationalities here gain experience with the practical side of rocketry and develop ever more advanced technologies, used to eventually reach the final goal – space.


DARE is a dynamic society where multiple projects happen at the same time. We are able to build, test and fly solid, hybrid and liquid rocket engines in a safe manner. Complex electronics are required to control the vehicles we develop. It includes work on Active Control systems that can stabilize rocket on its way up. This system makes the vehicle reach higher altitudes and reduces the distance to the landing spot.

Core Values
The DARE principles: Unique hands-on experience makes you join, the personal keeps you in, autonomy & challenge makes us thrive.

Find us at TU Delft

DARE is centered around two modern and up-to-date facilities. In addition to this, it maintains active relationships with other university departments and faculties as well as outside agencies to broaden the spectrum of possibilities. You can find us on the following locations:

Korolev Lab

The KorolevLab is located at the Faculty of Electrical Engineering, Mathematics and Computer Science (Nl: EWI, En: EEMCS). This is the home of the electronics team and is also the location of all meetings and academic projects.

Laika Lab

The LaikaLab is located at the Stevinhal which is a part of the Civil Engineering Faculty. This is where DARE’s manufacturing and production take place. The lab is located adjacent to the large and well-equipped workshop shared with the other TU Delft Dreamteams.