ABB RobotStudio Cup 2026: Innovation, Education, and Talent in Bergamo

Yayınladı 06/03/2026

The initial phase of the ABB RobotStudio Cup 2026 has just concluded, officially marking the start of the journey that will bring students and teachers from all over Italy – and abroad – to compete in ABB Robotics' main educational competition.

This year, the contest's name has evolved, transitioning from the now historic ABB RoboCup to focus on RobotStudio, ABB's leading software for simulating and offline programming industrial robots, which is increasingly popular in training programs today.

A major event for the world of education

The 2026 edition will take place on May 12th and 13th in Bergamo, two days packed with technical tests, challenges, meetings, and opportunities for exchange between students, teachers, and industry professionals.

More than 70 institutions will be involved, including high schools, ITS Academies, and universities, confirming the central role ABB Robotics plays in supporting the development of the digital and technological skills required by the ongoing industrial transition.

The RobotStudio Cup Junior returns: the importance of guidance for young people

Alongside the global competition dedicated to high schools, the RobotStudio Cup Junior is also back – for its second edition – the format designed to introduce middle school students to robotics.

The participation of the region's middle schools confirms ABB Robotics' commitment to supporting educational programs starting from the youngest generations, promoting early and informed guidance.

Thanks to dedicated tests, educational tools and moments of discussion led by ABB experts, the students have the opportunity to:

• discover firsthand what it means to work with robots and digital technologies;

• learn about new professions and fields of study;

• develop transversal skills such as collaboration, problem solving and creativity;

• start imagining your own path to building the future.

A growing educational ecosystem

The ABB RobotStudio Cup maintains the original spirit of the contest: promoting talent, creativity and teamwork .

At the same time, the 2026 edition strengthens its ties with the ABB Robotics Education Lab ecosystem, the program dedicated to introducing new generations to the skills required by industry. The use of 3D simulation, constantly growing in technical education, represents a concrete bridge between the world of education and the factory of the future.

A bridge between school and industry

With this initiative ABB renews its commitment to:

• offer young people industrial-level professional tools;

• create direct connections with experts and companies;

• generate opportunities for growth and orientation;

• bringing an accessible, concrete, and inclusive culture of innovation to schools.

The ABB RobotStudio Cup is more than just a competition: it's a journey that unites education, technology, and vision, creating fertile ground for the skills of the future.

International Participation and Global Finals

As in 2025, for this edition too we are collecting applications from foreign institutes , whose delegations will take part in the global assignment of the title of ABB RobotStudio Cup Winner 2026 , which will be celebrated on May 13th .

The future of robotics starts here .

Daha fazla bilgi için: ABB RobotStudio Cup 2026

İlginizi çekebilecek diğer makaleler

A compact space marvel that offers maximum visibility

Linde Material Handling (MH) launches the new Linde-Xi-Roadster electric forklift truck on the Italian market. The absence of a front mast and dedicated design solutions offer operators a wider, clearer view, with direct benefits in terms of safety and efficiency. Linde Material Handling, a forklift manufacturer part of the KION Group, presents the new Linde-Xi-Roadster, developed as part of the new generation of electric counterbalanced forklifts. The range is now expanded with seven new models, three- and four-wheeled, with load capacities up to 2 tons, designed to ensure significantly higher levels of visibility than traditional standards. The heart of the Roadster project is a pillar-less overhead guard, a solution that allows operators an unobstructed view of the front, sides, and top of the truck. This is complemented by additional design elements designed to improve overall visibility, with direct benefits in terms of safety, operational precision, and efficiency during driving and lifting operations. As Samuele Albertini , Head of Sales and Marketing Support at Linde MH Italia, summarizes, the principle is simple: visibility means safety and safety means productivity. “ When the operator has full visual control of the route, the surrounding environment, and the load, they can work more focused, precise, and efficient. People and obstacles are identified earlier, and maneuvers are faster and safer, with a direct impact on productivity in the warehouse and production areas ,” explains Albertini. Visibility, safety and ergonomics as design factors The new Linde-Xi-Roadster is designed for applications where visibility and ergonomics are crucial. It is particularly suitable for the precise handling and positioning of bulky loads, for racking operations, and for loading and unloading vehicles, where accuracy and control are essential. The most noticeable improvement comes from the elimination of the front masts, which traditionally limit visibility to the sides of the lift mast. The lowered front panel further improves visibility to the fork tips, while the slimmer rear masts make reversing easier. To ensure an unobstructed view upwards during stacking and retrieval operations, all roof pillars and cross members have been designed with minimal cross-sections. As an option, the Roadster can be equipped with a panoramic roof made of reinforced glass, which complies with safety regulations and has undergone stringent internal testing to ensure reliable protection against falling objects. Advanced ergonomics and intuitive control A further distinctive feature of the new Roadster is Linde Steer Control , which replaces the traditional steering wheel with a mini-steering wheel or joystick integrated into the left-hand armrest. “ These solutions further improve ergonomics and visibility and integrate perfectly with the Roadster concept, offering a more natural and less tiring driving experience, especially during long shifts ,” underlines Albertini. A shared technology platform The Linde Xi14 - Xi20 R (three-wheel) and Linde Xi16 - Xi20 R (four-wheel) models are based on the new Xi platform with integrated lithium-ion batteries. Despite their compact dimensions, they offer a spacious and comfortable working environment, with generous legroom and headroom and a wide step for easy entry and exit. Both the standard Linde Xi and Roadster versions are equipped with high-performance yet economical synchronous reluctance motors, ensuring maximum performance and a high residual load capacity. The same applies to all available equipment options, such as seat and mast variants, ensuring maximum customization. Finally, the new series offers many other advantages, such as a vibration isolation system on the drive axle, steering axle and lift mast. Operational efficiency and sustainability over time The entire design of the new Xi-Roadster series is focused on reducing operating costs and sustainability. Key components such as the motors and battery are maintenance-free, while vehicle accessibility has been designed to simplify service operations. One example is the extension of the hydraulic oil and filter change interval to 6,000 operating hours , a value that sets a new benchmark in the industry. This reduces oil consumption, limits waste, and minimizes downtime throughout the entire life cycle of the truck. About LINDE MH Linde Material Handling develops high-performance goods handling solutions customized to meet individual customer needs. Linde MH, in addition to being one of the world's leading manufacturers of forklifts and manual and automated warehouse equipment, offers a wide range of fleet management solutions, driver assistance systems, mobile robots and a wide variety of software solutions, consulting services and technical support. The Linde MH brand represents maximum performance, achieved through technological innovation, superior standards of ergonomics and operator safety and a wide range of energy options. In Italy, Linde MH can count on a network of 6 branches, 2 established dealers, 21 dealers and partners, and over 800 specialized service technicians, to respond promptly and effectively to customer needs.

25/02/2026 Devamını oku

Fanuc at mecspe 2026: intelligent technologies for the industry of the future

FS500i‑A CNC, ROBODRILL D28, CRX collaborative robots, and ROBOSHOT RS‑100iB press: FANUC showcases 360-degree automation in Bologna, showcasing innovation, efficiency, and technical training. At MECSPE 2026 , scheduled to take place at BolognaFiere from 4 to 6 March 2026, FANUC confirms its role as a leading player in the industrial automation panorama, bringing to the fair a complete range of solutions for machine tools, robotics and injection moulding, with a focus on integration, digitalisation and sustainability of production processes. In an industrial context characterized by a growing need for production flexibility, a shortage of qualified personnel, and the need to improve overall plant efficiency, FANUC offers MECSPE an approach to automation designed to make advanced technologies easier to integrate and more accessible even to medium-sized manufacturing facilities. Integrated automation for new production needs At the FANUC stand in Hall 14 – Stand D14, within the Machine Tools area, the company will present its latest innovations in numerical control, mechanical processing, and production cell automation, offering a concrete vision of integrated, highly automated production environments. FANUC's presence at MECSPE 2026 reflects its strategy of increasingly integrating automation between CNC, robotics, and process, with the aim of supporting machine builders and end users in creating complete, scalable, and highly reliable production cells. "MECSPE represents a strategic opportunity for FANUC to demonstrate how CNC, robots, and machines can work as a single technological ecosystem," comments Cristian Bosi, Managing Director of FANUC Italy. "Our goal is to help companies make automation simpler, more flexible, and more results-oriented." Technologies on display at the FANUC stand Among the main technologies on display: New FANUC FS500i-A CNC , a new generation platform designed to guarantee high performance, maximum operational reliability and an advanced level of integration between numerical control, machine and digital systems, to support intelligent manufacturing. New ROBODRILL D28 ADV Plus , a compact, high-performance machining center for milling and turning, designed to meet the needs of productivity, precision and flexibility in the most complex machining operations. FANUC CRX collaborative robot , integrated into a palletizing cell, to demonstrate collaborative applications that allow for increased automation even in production contexts characterized by variable batches, small spaces and rapid reconfigurability. TRCobot collaborative robotic welding cell created by Tecnorobot with CRX, to automate MIG/MAG and TIG welding processes, with particular attention to safety, flexibility and ease of integration into production departments. FANUC solutions oriented towards energy efficiency and sustainability , developed to contribute to reducing consumption, optimizing resources and improving the environmental performance of plants. Training and innovation at the MECSPE Lab Alongside the main exhibition area, FANUC is also strengthening its presence in the MECSPE Lab , a space dedicated to applied innovation, technical training and dialogue between industry, schools and competence centres. At Pavilion 36 – Stand C18 (EUROSTAMPI Area) , as part of a special initiative dedicated to technical training and the Academy world, created in collaboration with the Salesian Institute of Bologna, FANUC will be present with the ROBOSHOT RS-100iB injection molding machine. The press will be featured in a demonstration area designed to promote advanced technical training, innovation in plastics transformation processes, and the exchange of skills between schools and industry, offering a concrete example of how FANUC technologies can support the growth of skills and the development of new generations of specialized technicians. This space also offers a unique vantage point on the future of technical skills in manufacturing, highlighting the role of collaboration between industry, education, and FANUC technology in preparing the professional profiles required by today's and tomorrow's factories. Where to find FANUC at MECSPE 2026: FANUC Stand: Pavilion 14 – Stand D14 MECSPE Lab: Hall 36 – Stand C18 (EUROSTAMPI Area) About FANUC FANUC Corporation is a leading global manufacturer of factory automation systems, including CNC systems, robots, machine tools, and presses (ROBODRILL, ROBOCUT, and ROBOSHOT). Since its founding in 1956, FANUC has been at the forefront of developing numerical control units for machine automation. With a global presence, 270 subsidiaries in 100 countries and over 9,000 employees, FANUC offers its customers an efficient and widespread system of sales, technical support, research and development, logistics, and customer service.

23/02/2026 Devamını oku

Challenges and opportunities in hard part turning

Hard part turning offers manufacturers the opportunity to replace expensive grinding processes, reduce cycle times, and improve machining productivity. However, as with many advanced machining techniques, success depends on overcoming a number of specific challenges. Ralph Löwenau, Product Solution Specialist for Turning at Sandvik Coromant, an expert in metalcutting and production solutions, explores the obstacles manufacturers face in hard part turning and how these can be transformed into opportunities for greater efficiency and profitability. Hard turning generally refers to the machining of parts with a hardness greater than 45 on the Rockwell hardness scale (HRC). For context, mild steel has a hardness between 10 and 20 HRC, while hardened steel parts used in the automotive and aerospace industries can have a hardness between 45 and 70 HRC. Turning hard parts is made possible by super-hard cutting tool materials such as cubic boron nitride (CBN) and advanced ceramics. These materials are second only to diamond in hardness, meaning they can withstand the extreme forces and temperatures generated when cutting materials such as hardened steel. Unlike conventional carbide inserts, which would wear almost instantly under these conditions, CBN grades maintain cutting edge strength and resist both abrasive wear and thermal shock. Additionally, the inserts are designed with special cutting edge preparations and coatings that help manage heat, reduce chipping, and ensure consistent tool life. However, even with the best tools available, turning hard parts still presents challenges. Exploring common challenges The extreme hardness of the workpieces can accelerate insert wear, and if tools are not carefully selected or process parameters are not optimized, chipping and edge breakage can occur. Achieving the required surface finish and dimensional tolerances places additional demands on machine setup, toolholder stability, and cutting data. Hard part turning can be an excellent substitute for grinding, as it can provide comparable quality while reducing cycle times. However, many operators consider grinding the benchmark for surface finish, and achieving comparable quality is important when choosing an alternative method. High hardness leads to increased cutting forces and significant heat in the cutting zone. This can push the insert temperature above 1000°C, with the risk of thermal cracking, accelerated crater wear, or even workpiece deformation. Without the right insert material and optimized cutting conditions, this additional heat can degrade tool performance and compromise dimensional stability. Seize the opportunities To overcome these challenges and succeed in hard part turning, manufacturers should consider tool selection and process planning as strategic investments. CBN grades are the best choice for hard part turning, with many modern grades featuring optimized edge preparations that offer both wear resistance and edge security, allowing for greater stability and increased productivity. There are two typical preparations for CBN inserts: S-type and T-type. S-type inserts have the best edge line strength and are resistant to microchipping for a more consistent surface quality. T-types are ideal for surface finishes with continuous cuts and minimize burr formation in interrupted cuts. To further improve part quality, process optimization is equally crucial. Manufacturers should consider their hard turning strategy from the outset, even before the materials are actually hardened. When soft turning, before heat treatment, adding small angled edges to remove sharp edges (known as chamfering) and machining rounded transitions instead of sharp edges (also known as radiusing) can help prevent imperfections that could be transferred to the hardening process, where they would then be more difficult to remove. When turning hard parts, it's recommended not to jerk the tool out of the cut when entering or exiting. Instead, smooth entry and exit helps prevent stress buildup and edge damage, which can compromise both tool life and component quality. Hard part turning is a valuable machining strategy when manufacturers seek to improve production efficiency and streamline their processes. However, it is not without its complexities. Choosing the right inserts, machine stability, and careful process planning are all critical to successful turning. Following expert guidance and leveraging advanced tooling solutions can help manufacturers achieve grinding-quality results with shorter cycle times and lower costs.

23/02/2026 Devamını oku

ABB RobotStudio Cup 2026: Innovation, Education, and Talent in Bergamo

İlginizi çekebilecek diğer makaleler

A compact space marvel that offers maximum visibility

Fanuc at mecspe 2026: intelligent technologies for the industry of the future

Challenges and opportunities in hard part turning

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