Master Thesis: Evaluating Non-magnetic Armoring

**Master Thesis: Evaluating Non-Magnetic Armoring Solution for Submarine Dynamic cables to Enable the Green Energy Transition**

Driven by society’s need to tackle climate change, renewable energy generation continues to grow. To reach out for new natural resources, such as wind, wind farms are now more often being installed offshore at sea, further off the coast. In such places, winds blow with much greater force and more frequently than on land. High voltage (HV) submarine cables are essential elements in the power collection and transmission from offshore wind farms to the shore, thus playing a central role in the renewable energy transition.

These cables are characterized by high fatigue endurance to withstand the harsh loading conditions in the sea. One of the critical components in the construction of dynamic submarine cables is the armoring, which provides mechanical protection and ensures cable integrity under severe marine conditions. Marine salt water is a corrosive environment and corrosion must be considered seriously when designing submarine power cable. In most case the armoring is made of mild steel, which is a magnetic material that concentrates the magnetic field around the conductor generating unwanted losses and extra heat in AC submarine cables.
The focus of this thesis is to identify and evaluate an alternative material for armoring submarine dynamic cables that is non-magnetic, robust, and resistant to fatigue and corrosion.

**Thesis Description**
This thesis work will be conducted in collaboration with the University of Oxford and the University of Leicester. The purpose of the work is to evaluate and optimize the selection of non-magnetic armoring material for dynamic submarine cable armor, focusing on corrosion resistance and fatigue performance.
The main activities can be summarized as follows:

- Employing /developing a finite element model to evaluate the impact of corrosion on fatigue performance.
- Comparing the simulation results against in-house experimental results.
- Writing a final report summarizing methods and finding.

**Qualifications and Requirements**
The required qualifications are:

- Master student in Solid Mechanics, Material Science, Engineering Mechanics, Applied Mechanics, Engineering Physics, or any related field.
- Good knowledge of solid mechanics, material science, and finite element method (FEM).
- Experience in using FEA commercial software, e.g., Abaqus.
- Proficient in both verbal and written English communication.

**Contact and Application**

NKT is committed to fostering a diverse organization and a culture where people from different backgrounds can thrive and are inspired to perform at their best. We believe that a diverse organization enables sustainable performance and that an inclusive and welcoming culture creates a better workplace.

Tests can occur in our recruitment processes.

Union representatives

LI-AL1

**About NKT**:

- At NKT, we are all Connectors. We connect to develop leading technologies that enable the world’s transition to renewable energy - and we stay connected to grow as people and professionals. As a company, NKT connects a greener world with high-quality power cable technology and takes centre stage as the world moves towards green energy. NKT designs, manufactures and installs low-, medium