CIRCUMET

Drive innovation in aluminium recycling and sustainability!

This course is your gateway to mastering the science behind lightweight, corrosion-resistant, and endlessly recyclable aluminium—an essential material in automotive and aerospace industries. Learn to optimize remelting processes, control impurities with precision, and enhance alloy quality, all while reducing environmental impact. With the growing demand for sustainable, high-quality recycled materials, this course equips you with the skills to lead the way in transforming aluminium production for a greener future.

Designing Alloys for a Circular Future

Can non-ferrous alloys become truly sustainable? This course explores aluminium, magnesium, titanium, and nickel-based alloys, focusing on their recycling potential and innovative design for circularity. Learn to critically evaluate sustainability challenges, assess secondary feedstock strategies, and explore cutting-edge research on alloy development. Gain the skills to shape a more resilient and resource-efficient future.

Sustainable Steel: Designing Ferrous Alloys for a Circular Future

Ferrous alloys are key to the green transition—but how can we make them truly sustainable? This course explores strategies for life-time extension, recycling, and lean composition steel design. Learn to use Thermo-Calc for predicting phase formations in recycled steels and critically assess cutting-edge solutions for circular alloy development. Gain the expertise to drive sustainable innovation in the steel industry.

Master Sustainable Metal Solutions for the Green Transition

Explore the critical role of metallic materials in sustainability and the circular economy. This course covers key challenges in metal production, recycling strategies, and innovative solutions like mega casting and additive manufacturing. Learn to analyze and address sustainability issues from environmental, economic, and societal perspectives. Gain the skills to critically assess metal-related sustainability challenges and propose circular strategies for a greener future.

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Material Joining for a Sustainable Future

Enhance your expertise in modern welding with a focus on sustainability, quality, and productivity. This course explores advanced arc welding processes like CMT, STT, and TIG DynamicWire, as well as multi-material joining in the automotive industry. Learn to optimize welding parameters, reduce waste, and improve efficiency through cutting-edge techniques. Engage in interactive discussions and apply your knowledge directly to real-world challenges.

Design castings for a sustainable tomorrow!

Casting is one of the most widely used manufacturing routes, but how we design cast components today will determine their recyclability and value in tomorrow’s circular economy. This course gives you the tools to make smarter material and process choices, optimize component geometry, and apply design-for-recycling principles that enhance both performance and sustainability. With case studies, industry insights, and practical design methods, you will learn how to turn recyclability into a driver of innovation and competitiveness in casting.

Closed for application.

Smarter welds, greener future?

Learn to design welded components and structures that are strong, sustainable, and efficient. This course combines weld design principles based on international standards with awareness on durability, resource efficiency, and circularity. You’ll explore welding processes, their physics, and key non-destructive testing (NDT) methods, while building the skills to assess welds and make informed design choices for quality and sustainability.

Closed for application

Elevate your career with our Industry 4.0 course, tailored for professionals ready to lead the digital manufacturing revolution. Explore the shift from mechanization to smart systems, mastering technologies like Virtual Factory, Digital Twins, IoT, Big Data, and AI. Learn cybersecurity essentials and analyze real-world case studies to identify improvement opportunities. Combining theory and practical exercises, this course prepares you for roles in manufacturing engineering, digital transformation, and technology implementation. Enroll now to drive innovation.

Closed for application

Joining Methods for Sustainable Design and Reuse

Joining isn’t just about holding things together; it’s about shaping how we design, reuse, and recycle. This course explores joining techniques that support circular design and material reuse. Focusing on non-fusion methods like adhesive bonding, mechanical joining, and brazing, you will examine how joining choices impact performance, recyclability, cost, and disassembly. The course builds a real-world approach to selecting methods based on material properties, mechanical demands, and environmental impact.

Closed for application.

From Linear to Circular: Master the Metal Supply Chain

This course explores how the transition toward a circular economy is transforming purchasing and supply functions in the metals industry. The course provides practical insights into digital product passports, life cycle analysis, and the role of purchasing in building sustainable and competitive business models. You will develop skills to compare materials and suppliers from a sustainability perspective, improve communication across organizational and supply chain boundaries, and understand how legislation, customer demands, and new production technologies influence supply chains. Designed for professionals in purchasing, logistics, or supply chain management, the course combines theory and practice in English.