Industry news
FOUNDRIES IN TRANSITION: WHY HUMANOID ROBOTS ARE NOW IN DEMAND
by Tobias Bock Managing Partner at Nexery
Amidst heat and precision, new hybrid working environments could emerge. Humanoid robots are more than just tools—they are co-creators of industrial evolution. The new Nexery Humanoid Robot Study 2025 shows why humanoid robots are now gaining relevance in foundries. Immerse yourself in the future of foundry technology with this technical article by Tobias Bock, Managing Partner at Nexery.
Foundries in global upheaval
Conventional industrial robots are excellent when it comes to clearly structured, repetitive tasks. However, in environments with varying geometries, unstructured workflows, or high thermal stress, their adaptability is limited. This is exactly where humanoid robots come into play: with human-like stature, flexible gripping options, AI-powered motion planning, and significantly higher adaptability, they can take over tasks that, until now, could only be reliably performed by human workers.
This does not mean that humanoid robots are intended to replace people. Rather, they are meant to relieve existing staff, make workplaces more ergonomic, and increase efficiency – without the need for extensive structural changes in existing production environments.
Technological Foundation: Mass-Production-Ready Systems from 2025
The Humanoid Robot Study 2025 by Nexery clearly shows: starting this year, the first market-ready humanoid systems will cross the threshold into industrial use. Leading providers such as Tesla, Apptronik, Neura Robotics, and Agility Robotics are investing heavily in applications specifically designed for production and logistics environments.
This new robot generation combines several key technologies:
Specific Use Cases in Foundries
According to the study, the greatest current potential lies in two areas: intralogistics and quality assurance.
- In intralogistics, humanoid robots can handle material transport between stations, prepare tools, or sort components.
- In quality assurance, they can perform visual inspections, detect surface defects, and classify components accordingly.
In the medium term – as technology matures – further tasks will become feasible: operating machinery, finishing cast parts, carrying out maintenance work, or even assisting in setup processes.
The most promising benefits are:
The study recommends a step-by-step approach to minimize risks and quickly realize benefits:
Action Points for Decision-Makers
For leaders in foundries, this means:
Conclusion
Humanoid robotics marks a turning point in industrial automation. Especially in foundry technology, these systems close gaps for which there have previously been no economically viable solutions. They combine the flexibility of human labor with the precision and endurance of machines.
Companies that address this technology now will secure not only their productivity but also their long-term competitiveness – in an industry where innovation readiness will determine tomorrow’s success.
About the Author:
Tobias Bock is Managing Partner at Nexery and an expert in technological strategies for industry. The complete “Humanoid Robot Study 2025” is available at www.nexery.de.
Article Source: Foundry Planet
CHINA DIECASTING & CHINA NONFERROUS expo 2026, will be held from July 15 to 17, 2026 at Shanghai New International Expo Centre (Halls N1–N4). As Asia's largest specialized exhibition for die casting and nonferrous foundry, this edition, under the theme "Twin Engines: Al & Mg, A Lightweight Future," is expected to span 49,200 square meters, attract over 600 exhibitors, and welcome 28,000 professional visitors. Colleagues from around the world are warmly invited to visit and exchange insights.
Amidst heat and precision, new hybrid working environments could emerge. Humanoid robots are more than just tools—they are co-creators of industrial evolution. The new Nexery Humanoid Robot Study 2025 shows why humanoid robots are now gaining relevance in foundries. Immerse yourself in the future of foundry technology with this technical article by Tobias Bock, Managing Partner at Nexery.
Foundries in global upheaval
Conventional industrial robots are excellent when it comes to clearly structured, repetitive tasks. However, in environments with varying geometries, unstructured workflows, or high thermal stress, their adaptability is limited. This is exactly where humanoid robots come into play: with human-like stature, flexible gripping options, AI-powered motion planning, and significantly higher adaptability, they can take over tasks that, until now, could only be reliably performed by human workers.
This does not mean that humanoid robots are intended to replace people. Rather, they are meant to relieve existing staff, make workplaces more ergonomic, and increase efficiency – without the need for extensive structural changes in existing production environments.
Technological Foundation: Mass-Production-Ready Systems from 2025
The Humanoid Robot Study 2025 by Nexery clearly shows: starting this year, the first market-ready humanoid systems will cross the threshold into industrial use. Leading providers such as Tesla, Apptronik, Neura Robotics, and Agility Robotics are investing heavily in applications specifically designed for production and logistics environments.
This new robot generation combines several key technologies:
- High mobility through advanced joint and drive systems enabling complex handling tasks
- Artificial intelligence for navigation and decision-making, allowing safe operation in dynamic, unstructured environments
- Safe human-robot collaboration thanks to advanced sensor technology and real-time collision avoidance
- Modular, adaptable gripping systems for handling a wide variety of workpieces and tools
Specific Use Cases in Foundries
According to the study, the greatest current potential lies in two areas: intralogistics and quality assurance.
- In intralogistics, humanoid robots can handle material transport between stations, prepare tools, or sort components.
- In quality assurance, they can perform visual inspections, detect surface defects, and classify components accordingly.
In the medium term – as technology matures – further tasks will become feasible: operating machinery, finishing cast parts, carrying out maintenance work, or even assisting in setup processes.
The most promising benefits are:
- Reduction of physical strain on employees
- Consistent process quality regardless of shift, daily condition, or staffing levels
- Higher process stability, even with smaller batch sizes or varying orders
The study recommends a step-by-step approach to minimize risks and quickly realize benefits:
- Document ergonomically critical activities and identify potential use casesAssess automation feasibility considering technical, economic, and organizational factors
- Pilot a clearly defined use case under real-world conditions
- Integrate into regular operations while building internal expertise
- A well-defined pilot process ensures that not only technical feasibility but also economic viability and acceptance within the company can be verified.
Action Points for Decision-Makers
For leaders in foundries, this means:
- Start technology scouting now to identify relevant providers and solutions early
- Initiate and evaluate pilot projects
- Build internal resources (engineering, IT, process management)
- Evaluate manufacturer contacts and explore partnerships
Conclusion
Humanoid robotics marks a turning point in industrial automation. Especially in foundry technology, these systems close gaps for which there have previously been no economically viable solutions. They combine the flexibility of human labor with the precision and endurance of machines.
Companies that address this technology now will secure not only their productivity but also their long-term competitiveness – in an industry where innovation readiness will determine tomorrow’s success.
About the Author:
Tobias Bock is Managing Partner at Nexery and an expert in technological strategies for industry. The complete “Humanoid Robot Study 2025” is available at www.nexery.de.
Article Source: Foundry Planet
CHINA DIECASTING & CHINA NONFERROUS expo 2026, will be held from July 15 to 17, 2026 at Shanghai New International Expo Centre (Halls N1–N4). As Asia's largest specialized exhibition for die casting and nonferrous foundry, this edition, under the theme "Twin Engines: Al & Mg, A Lightweight Future," is expected to span 49,200 square meters, attract over 600 exhibitors, and welcome 28,000 professional visitors. Colleagues from around the world are warmly invited to visit and exchange insights.
