Addpark
Reading Time: 4 min
Reading Time: 4 min
Exploring next-generation copper additive manufacturing technologies for advanced thermal and industrial applications
Addpark and Addireen have announced a strategic technical and business collaboration aimed at expanding the development and industrial adoption of copper and copper-alloy additive manufacturing technologies.
The partnership combines Addireen’s green laser metal additive manufacturing technology with Addpark’s expertise in advanced materials, additive manufacturing engineering, and industrial application development.
Beyond technical collaboration, the initiative also includes technology integration, application development, training, and ecosystem support activities aimed at accelerating the adoption of copper additive manufacturing technologies in the region.
Together, the two organizations aim to explore new industrial opportunities where thermal performance, electrical conductivity, and complex geometries are critical — particularly in areas such as advanced thermal systems, energy applications, aerospace components, and next-generation heat exchanger technologies.
Unlocking the Potential of Copper in Additive Manufacturing
Copper and copper alloys are widely used across industries such as energy systems, aerospace, and advanced thermal management due to their exceptional thermal and electrical conductivity.
However, these same properties have historically made copper difficult to process using conventional infrared laser metal additive manufacturing systems.
Addireen has developed green laser–based metal additive manufacturing technology, which significantly improves energy absorption when processing copper and other highly reflective metals.
This enables:
Using short-wavelength green lasers, Addireen systems achieve high-precision copper printing with a relative density of ~99.8%. This capability unlocks complex geometries—while maintaining ~400 W/m·K thermal conductivity —shattering the boundaries of conventional manufacturing limits.
From Technology to Industrial Application
Within the BTech companies group, Addpark operates as a deep-tech engineering and manufacturing company focused on advanced materials and advanced additive manufacturing applications.
Through this collaboration, Addpark will play an important role in supporting the technology integration and industrial adoption of Addireen’s green laser additive manufacturing systems in the region.
In addition to application research, the collaboration will include:
By combining machine technology with application-driven engineering capabilities, the collaboration aims to bridge the gap between new manufacturing technologies and real industrial applications.
Enabling Advanced Thermal and Industrial Applications
A major focus of the collaboration will be the exploration of thermally optimized copper components enabled by additive manufacturing.
Copper’s exceptional thermal conductivity makes it particularly suitable for applications such as:
Additive manufacturing enables the production of complex internal channels, optimized fluid flow geometries, and lightweight structures that are difficult to achieve with conventional manufacturing processes.
Through joint experimentation and application development, the collaboration aims to explore new engineering approaches that combine advanced materials, additive manufacturing design, and industrial performance requirements.
Strengthening the Advanced Manufacturing Ecosystem
Beyond individual technology development, the collaboration is also designed to contribute to the broader advanced manufacturing ecosystem in Türkiye and the surrounding region.
By combining machine technology expertise with engineering-driven application development, Addpark and Addireen aim to support knowledge exchange and collaborative research involving industrial partners and academic institutions.
This ecosystem-oriented approach is expected to accelerate the adoption of next-generation additive manufacturing technologies for high-performance materials and applications.
CEO Statement
Kuntay Aktaş, CEO of Addpark,
commented on the collaboration:
“ At Addpark, we work to unlock the most advanced applications of additive manufacturing by integrating every element of the technology — from design and material science to production and post-processing.
Partnerships play an important role in this journey. While green laser technology enables a wide range of new possibilities in additive manufacturing, copper applications align closely with several key areas in our roadmap.
We believe this collaboration with Addireen will create significant value both technically and commercially, while opening new opportunities for advanced manufacturing applications. ”
Yujing Xu, Global Sales Director of Addireen,
commented on the collaboration:
“ We are thrilled to partner with Addpark to accelerate the global adoption of our green laser 3D printing technology. Highly reflective materials like pure copper have historically been a bottleneck in traditional additive manufacturing.
By combining our specialized green laser systems with Addpark’s deep engineering expertise, we are empowering industries—from advanced thermal management to aerospace—to unlock unprecedented manufacturing capabilities and component performance. ”
CEO of Addpark
About Addpark
Addpark is a deep-tech additive manufacturing company focusing on advanced materials, engineering-driven design, and certified production workflows for regulated industries. Supported by the BTech ecosystem and built on more than a decade of additive manufacturing R&D, the company develops high-performance solutions for sectors including aerospace, energy, medical, and industrial applications.
With capabilities spanning design optimization, material development, additive manufacturing, and post-processing, Addpark works with partners to transform advanced materials into high-performance engineering solutions.
About Addireen
Addireen is a leading global innovator in metal additive manufacturing, specializing in advanced Green Laser Powder Bed Fusion (PBF) technology. Engineered to conquer the fundamental absorption challenges of highly reflective and refractory metals, Addireen’s systems deliver unparalleled precision, ~99.8% relative density, and ultimate efficiency for materials like pure copper, copper alloys, and highly refractory metals like tungsten.
Committed to pushing the boundaries of industrial manufacturing, Addireen provides high-performance, open-parameter solutions tailored for advanced thermal management, aerospace, automotive and semiconductor industries worldwide.
Discover more at www.addireen.com
Reading Time: 5 min
In an age of rapidly advancing technology, industries need to stay up-to-date in order to gain competitive advantage and offer innovative solutions. Especially in the field of additive manufacturing (AM), topics such as metal additive manufacturing, design, optimization and material studies are important elements that will shape the production processes of the future. In this context, a pioneer like AddPark plays a critical role in accelerating the learning curves of industry-leading companies and making access to the latest AM technologies more affordable.
AddPark's Expertise:
AddPark stands out as a company specializing in additive manufacturing. Its deep expertise, especially in metal additive manufacturing, design, topology optimization and material studies, adds value to the projects of industry-leading companies. With more than 10 years of experience in this field, the company has a strong experience accumulation with its international business network.
Training and Learning Acceleration
AddPark stands out as a company specializing in additive manufacturing. Its deep expertise, especially in metal additive manufacturing, design, topology optimization and material studies, adds value to the projects of industry-leading companies. With more than 10 years of experience in this field, the company has a strong experience accumulation with its international business network.
Training Topics:
AddPark’s training program focuses on key areas of additive manufacturing. Some of the topics covered by the program are:
AddPark's Sample Projects:
In the past weeks, AddPark organized special trainings for Turkey’s leading defense companies Aselsan, Roketsan and TAI. With Materialise Magics and Ntop trainings, AddPark conducted studies on metal additive manufacturing. These projects are an indication of AddPark’s expertise and the value it provides to the industry’s leading companies.
As a pioneer in the field of additive manufacturing, AddPark provides valuable expertise and training to leading companies in the industry. Through its training and experience program, companies can accelerate their learning curve and access the latest AM technologies at lower costs. In this way, they can become leaders in this important technology that is shaping the future of the industry. For more information, please visit AddPark’s official website.
It is a widely used technology in the industry for producing complex metal parts with high levels of accuracy and detail.
At Addpark, we offer contract manufacturing services using DMLS technology. Our state-of-the-art facilities and skilled team allow us to produce high-quality metal parts that meet the most demanding specifications using this technology.
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We offer a range of DMLS materials, including metals such as aluminum, steel, and titanium, to suit a wide range of applications. Our team works closely with clients to understand their specific needs and requirements, and we are committed to producing parts that meet their exact specifications.
Overall, DMLS is a powerful tool that enables the production of high-quality metal parts with a high level of accuracy and detail. At Addpark, we are proud to offer contract manufacturing services using DMLS technology, and we are committed to helping our clients take advantage of its capabilities to produce the products they need. Is there anything else I can help with?
If you are interested in learning more about our powders and processes for AM or how we can support your additive manufacturing needs, please don’t hesitate to contact us.
AddPark collaborates with the world’s most important powder manufacturers to develop new powder alloys by working on the design of powders to be used in various industries, the development, characterization and validation of process parameters and application processes. Moreover;
Digital inventory refers to the use of technology to manage and track inventory in a digital format, rather than using physical inventory management methods such as manual counts and paper records. Digital inventory systems can be used to track the location, quantity, and condition of inventory in real-time, allowing for more accurate and efficient inventory management.
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One way that digital inventory can be used in conjunction with 3D printing is through the use of on-demand manufacturing. With on-demand manufacturing, a company can use digital inventory systems to track the availability and demand for parts, and use 3D printing to produce those parts as needed. This allows the company to reduce the amount of physical inventory it needs to hold, as parts can be produced on demand as they are needed, rather than being produced in large batches and stored in warehouses.
In addition to reducing inventory costs, digital inventory and 3D printing can also improve the speed and efficiency of the manufacturing process. By using digital inventory systems to track and manage inventory in real-time, companies can more quickly identify and address shortages or excesses of parts, and use 3D printing to quickly produce the parts that are needed. This can help to minimize production downtime and improve the overall efficiency of the manufacturing process.
Overall, the combination of digital inventory and 3D printing can provide significant benefits for companies in terms of cost savings, efficiency, and agility. As these technologies continue to advance and become more widely adopted, it is likely that we will see even more companies using them to improve their inventory management and manufacturing processes.
We are constantly working to improve our additive manufacturing processes and technologies, including the handling and management of metal powders. One area of focus for us is the development of a fully automated powder recovery system that allows us to efficiently and effectively reclaim the unused powders from the build chamber of our EBM and DMLS systems.
Our powder recovery system is designed to meet the strictest standards for part cleanliness and purity, making it ideal for use in regulated industries such as medical and aerospace. It uses a combination of mechanical and electro-chemical techniques, as well as state-of-the-art software algorithms, to optimize the cleaning process and minimize the time and resources required.
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The system is fully automated and uses machine learning algorithms to analyze data from previous cleaning cycles and determine the most efficient path for the cleaning nozzle or powder cage to follow. The recovered powders are then cleaned, sieved, and inspected to ensure that they meet the required size and shape specifications before being made available for reuse in the additive manufacturing process.
By recovering and reusing the unused powders, we can significantly reduce waste and material costs, as well as minimize our environmental impact. We are currently in the process of developing this system and are committed to bringing it to market as soon as possible.
If you are interested in learning more about our powder recovery system or how we can support your additive manufacturing needs, please don’t hesitate to contact us.
AddPark collaborates with the world’s most important powder manufacturers to develop new powder alloys by working on the design of powders to be used in various industries, the development, characterization and validation of process parameters and application processes. Moreover;
Heat sinks and heat exchangers play a critical role in a wide range of industries, including electronics, automotive, and aerospace. These components are designed to efficiently transfer heat from one location to another, helping to regulate the temperature of systems and prevent overheating.
Traditionally, heat sinks and heat exchangers have been manufactured using subtractive techniques such as machining or casting. However, additive manufacturing allows us to produce these components with complex geometries and internal features that are not possible using traditional methods.
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At Addpark, we are using advanced design techniques and materials science expertise to develop heat sinks and heat exchangers that are optimized for performance and cost-efficiency. We believe that our research in this area has the potential to revolutionize the way these components are designed and manufactured, and we are committed to staying at the forefront of this exciting field.
If you are interested in learning more about our research and development efforts in the field of advanced heat sinks and heat exchangers using additive manufacturing, please don’t hesitate to contact us. We would be happy to discuss your needs and how we can support your projects.
AddPark collaborates with the world’s most important powder manufacturers to develop new powder alloys by working on the design of powders to be used in various industries, the development, characterization and validation of process parameters and application processes. Moreover;
WAAM (wire and arc additive manufacturing) is a 3D printing process that uses a wire and an electric arc to melt and fuse metal powders into solid objects. It is a fast and efficient process that is well-suited for producing large metal parts with complex geometries.
At Addpark, we use WAAM technology to produce high-quality metal parts for a wide range of applications. Our state-of-the-art facilities and skilled team allow us to produce parts that meet the most demanding specifications using this technology.
WAAM is particularly well-suited for producing large parts with complex geometries, as it allows for the production of parts that would be difficult or impossible to produce using traditional manufacturing methods. It is also fast and efficient, making it ideal for producing large batch production and custom parts.
WAAM is a powerful tool that enables the production of high-quality metal parts with a high level of efficiency. At Addpark, we are proud to offer production services using WAAM technology, and we are committed to helping our clients take advantage of its capabilities to produce the products they need. Is there anything else I can help with?
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It is a fast and efficient process that is well-suited for producing small to medium-sized parts with complex geometries.
At Addpark, we offer contract manufacturing services using binder jetting technology. Our state-of-the-art facilities and skilled team allow us to produce high-quality parts that meet the most demanding specifications using this technology.
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We offer a range of binder jetting materials, including metals and ceramics, to suit a wide range of applications. Our team works closely with clients to understand their specific needs and requirements, and we are committed to producing parts that meet their exact specifications.
Binder jetting is a powerful tool that enables the production of high-quality parts with a high level of efficiency. At Addpark, we are proud to offer contract manufacturing services using binder jetting technology, and we are committed to helping our clients take advantage of its capabilities to produce the products they need. Is there anything else I can help with?
If you are interested in learning more about our powders and processes for AM or how we can support your additive manufacturing needs, please don’t hesitate to contact us.
AddPark collaborates with the world’s most important powder manufacturers to develop new powder alloys by working on the design of powders to be used in various industries, the development, characterization and validation of process parameters and application processes. Moreover;
At Addpark, we use SLA technology to produce a wide range of products, from engineering materials to certified biomedical applications. Our state-of-the-art facilities and extensive resin pool allow us to offer production services using a variety of materials.
SLA technology is an important part of contract manufacturing because it allows for the production of high-value products as the final product. This makes it ideal for producing small batch production and custom parts, as well as prototypes and end-use products.
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Overall, SLA technology is a powerful tool that enables the production of high-quality parts and prototypes with a high level of accuracy and detail. At Addpark, we are proud to offer production services using this technology, and we are committed to helping our clients take advantage of its capabilities to produce the products they need. Is there anything else I can help with?
If you are interested in learning more about our powders and processes for AM or how we can support your additive manufacturing needs, please don’t hesitate to contact us.
AddPark collaborates with the world’s most important powder manufacturers to develop new powder alloys by working on the design of powders to be used in various industries, the development, characterization and validation of process parameters and application processes. Moreover;
At Addpark, we use DLP technology to offer production services to units that need regular production. We can simplify production, post-processing, and cleaning processes to produce high-quality parts efficiently.
DLP technology is particularly well-suited for producing small, complex parts with high levels of detail and accuracy. It is also fast, allowing for the production of large numbers of parts in a short amount of time.
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Overall, DLP technology is a powerful tool that enables the production of high-precision parts with a high level of efficiency. At Addpark, we are proud to offer production services using this technology, and we are committed to helping our clients take advantage of its capabilities to produce the products they need. Is there anything else I can help with?
If you are interested in learning more about our powders and processes for AM or how we can support your additive manufacturing needs, please don’t hesitate to contact us.
AddPark collaborates with the world’s most important powder manufacturers to develop new powder alloys by working on the design of powders to be used in various industries, the development, characterization and validation of process parameters and application processes. Moreover;
At Addpark, we use SLS technology to produce a wide range of products using PA12 and PA11 materials. Our SLS machines allow us to produce any quantity of the same or different products, and the cost per part decreases as the quantity increases.
SLS technology is particularly well-suited for producing small to medium-sized parts with complex geometries and good surface quality. It is also fast and accurate, making it ideal for producing small batch production and custom parts, as well as prototypes and end-use products.
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Overall, SLS technology is a powerful tool that enables the production of high-quality parts using materials such as PA12 and PA11. At Addpark, we are proud to offer production services using this technology, and we are committed to helping our clients take advantage of its capabilities to produce the products they need. Is there anything else I can help with?
If you are interested in learning more about our powders and processes for AM or how we can support your additive manufacturing needs, please don’t hesitate to contact us.
AddPark collaborates with the world’s most important powder manufacturers to develop new powder alloys by working on the design of powders to be used in various industries, the development, characterization and validation of process parameters and application processes. Moreover;
DMLS is a complex technology, and the quality of the resulting components depends on various parameters such as the properties of the metal powders, the laser power and beam width, the bed temperature, and the thickness of the layers. Careful control of these parameters is essential to achieve the desired results.
At Addpark, we have extensive experience in using DMLS to produce high-quality metal parts for a wide range of applications. Our state-of-the-art facilities and skilled team allow us to produce parts that meet the most demanding specifications.
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Overall, DMLS is a powerful tool that enables the production of complex metal parts with a high level of accuracy and detail. At Addpark, we are proud to offer production services using this technology, and we are committed to helping our clients take advantage of its capabilities to produce the products they need. Is there anything else I can help with?
If you are interested in learning more about our powders and processes for AM or how we can support your additive manufacturing needs, please don’t hesitate to contact us.
AddPark collaborates with the world’s most important powder manufacturers to develop new powder alloys by working on the design of powders to be used in various industries, the development, characterization and validation of process parameters and application processes. Moreover;
Kişisel verilerin korunması kanunu 10. Maddesine göre veri sorumlusunun aydınlatma yükümlülüğünün kapsamı belirlenmiştir. Buna göre “Kişisel verilerin elde edilmesi sırasında veri sorumlusu veya yetkilendirdiği kişi, ilgili kişilere;
konusunda bilgi vermekle yükümlüdür.”
Kanun maddesinde aydınlatma yükümlülüğü yerine getirilirken uyulması gereken asgari şartlar belirlenmiş olup yükümlülüğü yerine getirirken uyulması gereken herhangi bir şekil şartı öngörülmemiştir. Bu bağlamda değerlendirildiğinde yazılı, sözlü veya alternatif yöntemlerle aydınlatma yükümlülüğü yerine getirilebilmektedir.
Aydınlatma yükümlülüğü kapsamında ilgili kişiye bildirilmesi gereken başlıklar şunlardır:
Aydınlatma yükümlülüğü yerine getirilirken herkesin anlayacağı bir dil kullanmak, anlaşılması güç bir ortam oluşturmamak gerekmektedir. Bunun için görsellerden yararlanmak, farklı dil çevirilerini kullanmak somut durum karşısında başvurulabilecek yöntemlerdendir.
Kamera kaydı alınan bir binada bina girişinde
“kamera kaydı alınmaktadır” levhası yeterli bir aydınlatma olmayacaktır.
Bina içerisinde fiziksel güvenliğin sağlanması ve kamu güvenliğinin sağlanması amacıyla, istenmesi halinde emniyetle paylaşılmak üzere güvenlik kameralarıyla 7/24 kayıt alınmaktadır. Kvkk11. Maddedeki haklarınızı kullanmak için bina görevlisine, güvenlik kulübesine başvurunuz” şeklinde yapılacak bir aydınlatma kanunen belirtilen asgari unsurları taşıması sebebiyle geçerli olacaktır.
