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This paper presents an exploratory study conducted at two Higher Education Engineering Schools, namely in the Lapland University of Applied Sciences (Finland) and in the Polytechnic Institute of Castelo Branco (Portugal), with the aim of constructing digital learning environments that promote increasing learning autonomy to students working with 3D printing technologies in engineering design. Based on pilot blended learning experiences carried-out in both schools, new instructional design solutions are proposed and discussed, aiming at a widespread use of such digital platforms not only for blended and online learning processes in engineering schools, but also as Massive Open Online Courses open to wider communities interested in such technologies.

Continuous technological advances keep challenging current and future engineers to anticipate and adapt to the new trends and paradigms that are expected to take place in a near future. One of such paradigms is the Industry 4.0 that encompasses the promise of a new industrial revolution based on the interconnectivity of people and systems to communicate, analyse and use information related to industrial processes. New challenges, as well as new opportunities, will rise in this digital landscape, demanding from future engineers the ability to adapt and grow in such ground-breaking environments. With such dynamic changes taking place in the current and future industries, engineering education has to adapt and prepare future graduates to work and function in these demanding environments. The set of skills envisaged to be held by future engineers is the ability to work and collaborate using digital means of participation as well as the ability to effectively use intercultural communicative skills. To this end, an exploratory study was conducted among different European Higher Education Engineering Schools to integrate a project with common aims and goals, resulting in various collaborative engineering activities that were designed to be carried out by undergraduate industrial and mechanical engineering students to further improve their learning outcomes and to acquire, or improve on, dedicated intercultural, communicative and colaborative skills. Following both quantitative and qualitative approaches, this study combined different types of data and methods of analysis in order to provide an exploratory account of the envisaged findings.

In order to understand the potential of Online Learning Environment tools and resources in Engineering Education, a project on the use of dedicated educational strategies has been carried-out in various European Schools of Engineering to improve students’ engagement on different forms of participation and to enhance their learning outcomes. This study focuses on the use of Web 2.0 tools while teaching Manufacturing Processes to Industrial Engineering students of a Higher Education Portuguese Polytechnic Institute during a full semester. Cumulatively to students’ perceptions, data was collected and assessed to infer about two main research questions: “Are engineering students able to use efficiently online learning tools to enhance their autonomous learning process?” and “Can engineering students work collaboratively using online tools towards achieving common learning goals?”. Preliminary findings showed that students managed to efficiently use the proposed online collaborative learning tools during the course. However, students preferred the individual learning tools and processes to working and learning collaboratively from and with each other.