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05 May 2023 | Story EDZANI NEPHALELA | Photo Supplied

The University of the Free State (UFS), in collaboration with the Department of Science and Innovation (DSI), South African Centre for Digital Language Resources (SADiLaR), Council for Scientific and Industrial Research (CSIR), and Universities South Africa (USAf), will be conducting its Language Resource Audit for the UFS on 2 June 2023. 

This audit process will assess the resources available and required for the implementation of a Language policy framework for higher education (2020) – such as the development of multilingual terminologies, translation services for teaching and learning materials, campus signage, as well as various multimedia collateral – including their quality and relevance to the needs of the students and faculty. The audit will include an assessment of existing resources and whether they are furthering implementation goals, and may also include the gathering of feedback from students and faculty to identify improvement areas.

Dr Nomalungelo Ngubane, Director of the UFS Academy for Multilingualism, said the process will help the UFS identify the essential languages resources that are available for the successful implementation of the 2020 Language Policy for Higher Education framework (LPHE). “The audit will identify how much has been done at the UFS and which institutions we can collaborate with, for example, in the development of Sesotho, so that we do not reinvent the wheel, but we close the gaps.” 

Once the audit is completed, the institution will develop a plan for resource allocation to address the identified gaps. This may involve acquiring new resources, upgrading existing ones, or reallocating existing resources better to meet the needs of students, staff, and faculties.

Due to the impact this audit will have on various stakeholders, all staff and students are encouraged to participate. To attend the audit, please RSVP here by 30 May 2023.

News Archive

UFS researcher engineers metal surfaces
2015-03-03

Shaun Cronjé, a PhD student, in a surface characterisation laboratory at the UFS.

It is well known that the surface of a component is much more vulnerable to damage than the interior, and that surface-originated degradation such as wear, corrosion, and fracture will eventually destroy the component.

“Engineering the surface, based on scientific knowledge, is essential to control these damaging processes. It also creates electronic and geometric structures on the surface which opens up a world of new devices, especially considering the properties on the nano-length scale,” said Prof Wiets Roos from the Department of Physics at the University of the Free State (UFS).

At elevated temperatures, atoms are more mobile and can migrate to grain boundaries and surfaces, which have a major influence on material properties. The redistribution of solute atoms between the surface and the bulk of the material is known as segregation. Knowing the behaviour of segregation at the surface/environment interface can be very useful in the development of new materials. As an example materials can be improved higher efficiency and lower fuel consumption, thus reducing environmental pollution.

The main aims of Prof Roos’s research are to understand surface segregation, use it as a tool, and contribute to the various surface engineering fields.

The surface characterisation laboratories at the UFS are well equipped to do high temperature segregation measurements, and have already proven a success, not only in the ability to prepare the specimens for characterisation, but also in developing models and procedures to quantify the segregation parameters.

The most recent results have demonstrated the importance of taking evaporation into account during quantification.” This has laid the foundation for future studies by installing the necessary hardware in a surface characterisation spectrometer, establishing experimental protocols, and improving an existing model (developed in this laboratory) for simulating segregation profiles,” said Prof Roos.

Segregation parameters allow the researcher to predict and utilise the surface concentration behaviour as a function of temperature and time. “This not only contributes to fields involving corrosion, oxidation, sintering, wear, chemical poisoning, powder metallurgy, and lubrication but adds to the development of self-healing devices,” said Prof Roos.

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