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Honoring Swinburne engineers this International Women in Engineering Day

Australia’s engineering skills shortage has reached a 10-year high, exacerbated by the impact of COVID-19.

On top of the general shortage, the profession is suffering from a critical gender imbalance, with Engineers Australia reporting only 12 per cent of engineers in the country are women.

This International Women in Engineering Day, Swinburne University of Technology pays tribute to women who have followed their passions in engineering, overcoming the many barriers women face in forging successful careers in the field.

Why equality in engineering matters

The Workplace Gender Equality Agency says that gender imbalance, anywhere, affects us all. Gender equality is associated with improved productivity, economic growth, organizational performance, ability to attract and retain employees, and enhanced organizational reputation.

Swinburne has long been a champion of workplace gender equality and is building gender equity and diversity in science, technology, engineering, maths and medicine (STEMM), by participating in the Science in Australia Gender Equity (SAGE) program.

When asked what it will take to get more women in engineering, our Swinburne female engineers put it down to three things: mindset, early education and engagement.

These women have all been instrumental in engaging the next generation of female engineers through early education initiatives, as a nod to the impact it has had on them. They have played key roles in assisting with and hosting an array of activities, events and workshops to demonstrate that STEMM is exciting and interesting and can be a rewarding and versatile career choice for girls and women.

Meet some of the inspiring women from Swinburne who are making waves in their respective fields.

Victoria Zinnecker

Aerostructure Innovation Research (AIR) Hub Research Fellow, Victoria Zinnecker leads research and development with one of AIR Hub’s partners, Boeing Australia.

Her team develop intelligent manufacturing processes for aerospace components that Boeing then applies in the production of parts for their aircraft wings.

Victoria credits her German upbringing and awareness of household names like Bosch and Voith – companies with fantastic technical solutions and products – for sparking her interest in engineering. Throughout primary and secondary school she explored this interest and participated in programs aimed at engaging students to participate in STEMM learning, such as trying the basics of welding or coding.

She thinks that for more women to get into engineering it comes down to ‘mindset’ and opportunity.

“The ability to problem solve, optimize and implement is central and these have nothing to do with gender. Some of the most successful outcomes I’ve seen have been from constructive conflict and the most diverse teams. To get meaningful change, the emphasis should be on access to genuine role models and leaders and career support rather than filling quotas,” she said.

Victoria is passionate about engaging the next generation of women scientists, hosting and volunteering across several engineering workshops.

Associate Professor Mahnaz Shafiei

”I became an engineer because of my intrinsic motivation and a love of maths and art. I have always liked art, and engineering involves the art of design, creativity, and technology! Being an engineer gives you opportunities to use your creativity every day! My dad is also a good “hands-on” engineer so perhaps it’s in the genes,” Mahnaz Shafiei.

Associate Professor Shafiei is a Vice-Chancellor’s Women in STEMM Fellow and Associate Professor at Swinburne.

Mahnaz is leading research that focuses on a fundamental understanding of nanomaterials suited to the development of next generation miniaturized, low-power gas sensors for practical uses in health and environmental monitoring.

Sensor technology is an important enabler in modern society for detecting, monitoring and managing specific gases or liquids in our natural and built environments. A revolutionizing technological trend is the rapid growth of mobile sensors for personalized health evaluation, environmental monitoring, robotics and security. Mahnaz and her research team are investigating new technologies to develop reliable, portable gas sensors to be embedded in sensor nodes for Internet-of-Things applications or for mobile systems (trucks, trains, industrial sites).

Recently, Mahnaz’s team focused on the development of high-performing sensors for detecting hydrogen in a range of end-use applications.

On a day-to-day basis, some lucky people in Australia and overseas are already driving hydrogen-powered cars or moving from place to place with a fuel cell, hydrogen-powered, bus or train. These transport vehicles exhaust only water and zero carbon dioxide. In these practical environments, as well as in industries that use hydrogen as an energy source or as a key chemical, safety through rapid and effective detection of hydrogen (or other combustible gases) is a key requirement.

While existing technologies provide adequate detection, Mahnaz’s research aims to deliver higher performing and lower cost sensors to enable many more diverse applications that use hydrogen as we transition to a green, or clean, energy industry.

Shanti Krishnan

Shanti is the Deputy Director of the Factory of the Future at Swinburne, and also a co-founder of Swinburne spin-out technology company mDetect, which specializes in using particles from space called muons to see the unseeable. Her primary focus is to de-risk innovation for industries and enable them to embrace technology. It is also her passion for her to make engineering interesting to students, as she believes we have a wealth of talent in young Australians, waiting to be tapped into.

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