Construction 3D PrintingTransportation

Swissloop tunnel vision: boring while 3D printing a hyperloop tunnel

The ETH student initiated team will present Groundhog Alpha at upcoming Not-a-Boring Competition final

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For Elon Musk’s Not-a-Boring Competition finals, Swissloop Tunneling will both bore a tunnel and, at the same time, create a tunnel wall in-situ using a special polymer 3D printer embedded in the machine. This Swissloop tunnel vision, of boring while 3D printing a tunnel simultaneously, is meant to streamline tunnel boring for upcoming hyperloop transportation. Using tough glass fiber materials and a two-component polymer mix, the machine is able to create a 15mm (0.59 inch) thick and highly reliable tunnel wall to press against and to ensure structural integrity along the whole length of the tunnel.

On Sunday, September 12th teams N. America and Europe will test the limits of innovation and engineering in the Not-a-Boring Competition’s final day. The competition challenges teams to bore a 30-meter tunnel in the Nevada desert just outside of Las Vegas. Swissloop Tunneling a student-initiated team consisting of more than 40 students, most from ETH Zurich – the Swiss Federal Institute of Technology in Zurich, Switzerland – is a strong prize contender in the final round of the competition with their boring machine called, Groundhog Alpha.

The tunneling machine is named after one of nature’s most creative tunnel-building animals. With its unique steering mechanism and progressive tunnel lining system, Groundhog Alpha is more agile than conventional solutions and able to 3D print the tunnel tube while continuously moving forward. This is something that has never been done before.

After having been selected from over 400 applicants, Swissloop Tunneling was invited as part of the “digging dozen” – the twelve remaining teams – to present Groundhog Alpha.

Swissloop Tunnel vision: boring while 3D printing a hyperloop tunnel

Boring while 3D printing

One of the most significant issues in tunneling nowadays is the major costs as well as the challenging logistics. The boring machines and the tube sections are heavy and usually need to be transported over hundreds of kilometers to the digging site. Most of the conventional tunnel boring machines are standing still when tube sections are being placed.

Under these premises, the Hyperloop concept is impossible to be realized in areas where tunneling is required. Current large tunnel boring machines (which would be used for road construction) are not standardized and too expensive for the hundreds of kilometers of tunnels needed for large-scale Hyperloop networks. Furthermore, pipe jacking, which is the standardized solution, used for shorter tunnels with smaller diameters, is not scalable to the Hyperloop diameters of approximately 4 meters. Therefore, Swissloop Tunneling is developing small-scale tunneling machines with innovative processes that can be scaled up to these dimensions in the future.


Hyperloop is a new form of transportation that seeks to overcome todays’ issues of conventional mobility systems. Hyperloop is a futuristic form of transportation, consisting of a sleek pod-like capsule that is levitating inside vacuum tubes, accelerating across the country at high speeds, being inexpensive for goods and people. The technology is also more sustainable and with the targeted speeds of over 1000 km/h (600mph) faster than high-speed trains and airplanes.

Loop is an all-electric, zero-emissions, high-speed underground public transportation system in which passengers are transported to their destination with no intermediate stops. The concept is also known as “Teslas in Loop” and resembles an underground highway more than a subway system. The express system allows Loop vehicles to travel faster than conventional subway cars (up to 250km/h (150 mph) vs. up to 100 km/h (65 mph)).

Swissloop Tunnel vision: boring while 3D printing a hyperloop tunnel

Tunnel vision

Swissloop Tunneling’s vision is to overthrow the status quo of the tunneling industry and make tunneling more sustainable, affordable and faster. Therefore, Swissloop Tunneling is conducting research on new and innovative boring mechanisms. The goal of Groundhog Alpha is to increase tunneling speed and validate our processes which will significantly reduce tunneling costs in the future.

The vision of Swissloop Tunneling goes well beyond the boundaries of the competition. Further iterations of the machine are already in planning and will be demonstrated at our tunneling facilities in Switzerland over the next few years.

Swissloop Tunnel vision: boring while 3D printing a hyperloop tunnel


The Boring Company’s goal is to build the tunnel infrastructure necessary to enable fast, safe, and comfortable transportation, including Loop and Hyperloop. To feasibly build a large network of tunnels, one must first rapidly innovate to increase tunneling speed and reduce tunneling costs

The competition challenges teams to come up with tunneling solutions and demonstrate if they can build tunnels faster than snails can slither. The Boring Company invited twelve teams from around the world to race their own tunneling solution at The Boring Company’s Dig-a-Factory in the first Not-a-Boring Competition from the 6th to the 12th of September in Las Vegas.

As the actual Hyperloop diameters would have been impossible to reach in only one year, the competing teams built tunnel boring machines for digging a tunnel with a length of 30 meters and a diameter of 0.5 meters. Winning categories will include:

●     Fastest to complete tunnel

●     Fastest to complete tunnel and a driving surface (The Boring Company will drive a Tesla remote controlled car through the tunnel)

●     Most accurate guidance system – how far away is the tunnel from its target?

Swissloop Tunneling Journey

Elon Musk has hosted four SpaceX Hyperloop Competitions, where students from all over the world constructed “Pods “, the capsules in which people and goods will be transported in for the Hyperloop concept. At the end of 2019’s Hyperloop Competition Elon Musk announced that the Boring Company will hold a tunneling competition in the future. In summer 2020 the official announcement was made and Swissloop Tunneling was founded at ETH Zurich by four former Swissloop team members.

Today the student initiative brings together over 40 students with expertise in mechanical, electrical and civil engineering as well as various business-related fields. The team members from ETH Zurich and other Swiss Universities are proud to represent Switzerland as the only Swiss team competing in the final round of the Not-A-Boring-Competition after having been selected from over 400 starting participants.

Groundhog Alpha

Over the course of the last year, Swissloop Tunneling designed, constructed and tested their tunnel vision and the Groundhog Alpha machine. The organization intentionally followed a very innovative and demanding boring while 3D printing approach. Swissloop Tunneling is confident that this new approach will be the base for new tunneling solutions in the future.


  • Length: 7m
  • Mass: 2.5t
  • Diameter: 0.56m
  • Propulsion force: max. 200kN (= 20 metric tons (weight of a large bus))
  • Motor speed: max. 3600rpm (About the same as Boeing 747 turbine blade)
  • Rotation Speed of Cutterhead: 27rpm
  • Target Speed: 1cm/s


The erosion system cuts out large stones using the custom-designed cutting wheel. Subsequently, it crushes those stones to smaller sizes (1-2 centimeters) using the cone crusher. The tungsten-carbide coating ensures longevity and enables the crusher to get a better grip. In the last step, all the slurry is washed out of the erosion chamber using 10bar water pressure and a Venturi vacuum pump which can be found in the back of the machine. With a torque of 8.5kNm, a rotation speed of 27 rpm and a pushing force of 100kN Swissloop Tunneling is prepared for any soil conditions that could come Groundhog Alpha’s way.

Swissloop Tunnel vision: boring while 3D printing a hyperloop tunnel


In order to dig curved tunnels, an innovative custom-made hydraulic hexapod system is used. With six hydraulic high-precision cylinders it’s possible to move the cutter head in six degrees of freedom. With our custom software, we can put the machine in jackhammer mode, allowing for strong vibrations through frequencies as high as 20Hz.


To create a tunnel wall, a special polymer 3D-printer is built into the machine. Using tough glass fibre lamellas and a two-component polymer mix, it is possible to create a 15mm thick and highly reliable tunnel wall to ensure structural integrity along the whole length of the tunnel.


In the propulsion section sixteen coordinated, high-performance hydraulic cylinders press bracing plates against the tunnel wall in a continuous fashion allowing uninterrupted movement and a propulsion force of max. 200kN.

Starting platform

Starting from the surface the team will not have to dig a starting pit, enabling Groundhog Alpha to start digging down straight away, saving valuable time. The starting platform absorbs all the propulsion forces and acts as an initial guidance system for the machine.

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Davide Sher

Since 2002, Davide has built up extensive experience as a technology journalist, market analyst and consultant for the additive manufacturing industry. Born in Milan, Italy, he spent 12 years in the United States, where he completed his studies at SUNY USB. As a journalist covering the tech and videogame industry for over 10 years, he began covering the AM industry in 2013, first as an international journalist and subsequently as a market analyst, focusing on the additive manufacturing industry and relative vertical markets. In 2016 he co-founded London-based VoxelMatters. Today the company publishes the leading news and insights websites and, as well as VoxelMatters Directory, the largest global directory of companies in the additive manufacturing industry.

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