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Melbourne, Australia
1-10 Employees
We are passionate about fast and efficient 3D Post Processing. We understand the huge potential for our technology to transform this space. Our mission is to help unlock the potential of metal additive manufacturing through a step change in post processing performance The team brings together expertise in additive manufacturing, post processing, automation, product development metallurgy, defence, mining and more. We are backed by an experienced board, advisors and mentors from industry, with strong business acumen.
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Featured
3D Metal Printing Post-Processing Technology
... 3D Metal Printing Post-Processing ...
Mannheim, Germany
11-50 Employees
Turn to Norck for high quality sheet metal fabrication and assembly. Norck provides services for rapid-expedited and high volume production. Norck serves a wide range of industries including defense, aerospace, robotics, energy, electronics, automotive, industrial equipment, and consumer products. Besides Norck's own production capacity, Norck has access to hundreds of top quality CNC machining, sheet metal, 3D printing, injection molding, and urethane casting providers across the United States, Germany, and Europe. Working with Norck effectively reduces your risks against supply chain shocks, unforeseen delays, price fluctuations, and quality issues, thus increasing your company’s resilience in its outsourcing and supply chain. Norck gathers and uses thousands of data points to augment its engineers with a state of the art artificial intelligent system for better design and manufacturability. Norck encourages its partners to be carbon-neutral, and gives carbon neutral compliant suppliers priority over non-compliants. Norck can turn your ideas into a "solid" model for the best manufacturability.
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HOLDER | Online CNC Machining Service, 3D Metal Printing, On-Demand Sheet Metal Fabrication, Sheet Metal Cutting, Custom Metal Manufacturing, Custom Plastic Manufacturing, Additive Manufacturing, Injection Molding, United States, California, Germany, Europe, United Kingdom
... HOLDER | Online CNC Machining Service, 3D Metal Printing, On-Demand Sheet Metal Fabrication, Sheet Metal Cutting, Custom Metal Manufacturing, Custom Plastic Manufacturing, Additive Manufacturing, Injection Molding, United States, California, Germany, Europe, United ...
Solymár, Hungary
11-50 Employees
2016
3D STEELPRINT was established more than 4 years ago with the purpose of making metal based additive manufacturing – shortly the metal 3D printing – available for everyone in Hungary along with Central- and Eastern-Europe. Valuable knowledge collected in the previous years is the result of our R&D activity and the useful know-how of our colleagues contributes to the success of our customers. Our team of experts offers complex solutions for our customers. We are able to provide support in all necessary fields of expertise ranging from problem-analysis and concept-design through detailed design right up until the manufacturing and implementation meeting our customer’s demands be it either a brand-new design, optimization or a case of reverse engineering also in development of ongoing and future projects. Our state-of-the-art plant has all the machines necessary to produce workpieces with the desired tolerance, accuracy and surface quality, including metal based additive manufacturing, CNC machining, heat treating, manual or machine based surface finishing or quality control.
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CUSTOM 3D METAL PRINTING SERVICE.
... CUSTOM 3D METAL PRINTING SERVICE. ...
Kuurne, Belgium
1-10 Employees
2015
Our continuing growth is not based on agressive marketing but on an overall high level of customer satisfaction as for cost, delivery, flexibility, quality and technical assistance. Metal Technics 3D was founded in 2015 in response to the growing gap between the possibilities presented by metal 3D printing and the engineering expertise required to apply this technology. Many companies, developers and engineers are aware of the new technology however fail to see the direct long-term advantages and applicability. Even many metal 3D printing companies fail to find the right applications to run their machines at capacity. As a service provider, our philosophy is to find a way to help our clients when they need it most, regardless of the situation.
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Featured
Your total solution provider in the metal 3D printing sector
... We help companies to use the benefits of metal 3D printing by supporting in design and manufacturing. ...
Bengaluru, India
11-50 Employees
2018
amace is a part of the Ace Micromatic Group (AMG), the largest machine tool conglomerate in India. With a firm belief in the potential of AM and a vision to promote this technology and make it more accessible, amace solutions was formed in the year 2018. amace comes with a pedigree of over 4 decades in machine building and is now well poised to be one of first Indigenous Manufacturers of Metal based Additive manufacturing machines. Be one of the best Additive Manufacturing Solutions providers globally. amace will develop metal printing solutions to suit diversified requirements of customer through technologically advanced products made available cost effectively. “3D printing services that give shape to your imagination”.
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Featured
Metal Additive Manufacturing Products & Solutions | 3D Metal Printing in India
... Metal Additive Manufacturing Products & Solutions | 3D Metal Printing in ...
Stockton-on-Tees, United Kingdom
51-100 Employees
1998
We manufacture for a wide range of medical applications utilising primarily our advanced laser & EDM manufacturing technologies. We are equipped with laser welding, cutting, marking and 3D printing, conventional multi-axis machining, wire-EDM & sink-EDM. We are growing, and frequently introducing new processes and technologies. Therefore we are always looking for new people to join our happy team. XL Precision Technologies specialise in the manufacturer of precision micro-components, complex tubular components and sub-assemblies for the medical device industry. We offer DFM, prototyping and production solutions to our medical device customers. Across 2021 and 2022 we have more than doubled the manufacturing space in both UK and USA facilities. Laser Technology Center become fully operational in the new 20,000 sq ft UK manufacturing facility.
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3D Metal Printing
... XL Precision Technologies offer a 3D metal printing service. This enables our customers to rapidly develop a metal component using this exciting capability. ...
Istanbul, Turkey
1-10 Employees
The use of new methods in production is increasing! Wire arc additive manufacturing (WAAM) is one of the most promising technologies for large-scale part production. WAAM is an additive manufacturing (AM) method that uses an arc as a heat source and a wire as a feed material. In wire arc additive manufacturing, it is possible to perform layered production by using gas metal arc welding, gas tungsten arc welding (GTAW) and plasma arc welding.WAAM technology is an interesting and low-cost method for the rapid production of medium- and large-scale parts and structures. Gas Tungsten Arc Welding (GTAW) is the manufacturing technology used by Alloy Additive.
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LARGE-SCALE 3D METAL PRINTING ON DEMAND
... LARGE-SCALE 3D METAL PRINTING ON ...
Singapore, Singapore
11-50 Employees
Our team is dedicated to build prototypes from your designs, 3D models or even simple drafts. Our engineering team will ensure precision and quality of your prototypes. We use both the latest additive and conventional prototyping technologies together with a wide range of materials. We produce your design and ship them as fast as in 24h. Our moto: we say what we do and do what we say.
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Metal Powder 3D printing
... 3D Metal Printing Singapore – 3D Printing Services ...
Bengaluru, India
1-10 Employees
2017
Rapid DMLS was founded in 2017 by a group of dedicated individuals to provide solutions in the field of Metal Additive Manufacturing. The team has been crafted with members specializing in each aspect of the manufacturing process. We have the infrastructure and the technical competence to deliver quality parts in the shortest timeframe. At Rapid DMLS, We concentrate on providing an end to end solution for customers by using advanced techniques like 3D Metal Printing, Multiaxis CNC Machining and reverse Engineering, We believe this additive manufacturing in changing the way a product design in approached, giuly rise to various new possibilities in a smaller lead time.By integrating our 3 decade long technical expertise in subtractive manufacturing & reverse Engineering with Design for Additive Manufacturing, We work on to make our organization a one shop solution for rapid prototyping and production of Metal 3D printed parts. We have the infrastructure and the technical competence to deliver quality parts in the shortest timeframe.
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Featured
Metal 3D Printing with End to End Support
... We offer the most innovative services in Metal 3D Printing in India. We are located in Bengaluru, the technology hub of India. ...
Belfast, United Kingdom
11-50 Employees
1991
We are a customer focused company and strive to meet all quoted lead times, deliver superior service and part quality and maintain a competitive edge through our innovative service offering and our highly skilled workforce. We are always striving to be at the forefront of the very latest additive manufacturing technologies and are always seeking new opportunities to get involved in R&D projects. We are a full-service bureau offering a wide range of services in-house, meaning that we have the capabilities to be your service partner for your entire project – from small first off prototypes through to low-volume production. We are constantly investing in new materials and technologies because our aim is to be able to fulfil all of our customer’s project needs – whatever the challenges. We are the longest established RP bureau in the UK and Ireland, and we have an experienced team of both engineers and modelmakers. When LPE was first founded our goal was simply to ensure we offered our customers fast, reliable plastic prototype parts. At LPE, we value our customer relationships and are dedicated to offering fast, efficient prototyping and rapid manufacturing solutions across a wide range of industry sectors. Meet the people that are dedicated to ensuring that you receive an unrivalled customer experience when you work with LPE.
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Featured
3D Metal Printing / Direct Metal Laser Sintering (DMLS)
... Why choose 3D Metal Printing/Direct Metal Laser Sintering (DMLS)? ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for 3D Metal Printing
Country with most fitting companies | United States |
Amount of fitting manufacturers | 196 |
Amount of suitable service providers | 204 |
Average amount of employees | 11-50 |
Oldest suiting company | 1991 |
Youngest suiting company | 2018 |
3D metal printing, also known as metal additive manufacturing, is a sophisticated technology that constructs three-dimensional objects by layering metal material under computer control. Unlike traditional subtractive manufacturing processes, which cut away from a solid block of material, this additive process builds objects from the ground up, allowing for the creation of complex geometries that would be difficult or impossible to achieve through conventional methods. The process begins with a digital design of the object, usually created in a Computer-Aided Design (CAD) software. This design is then sliced into thin horizontal layers and sent to the 3D printer, which selectively melts or fuses powder or wire materials layer by layer, solidifying the metal to form the desired shape. The impact of 3D metal printing within various fields has been transformative, enabling the production of components with reduced weight, increased strength, and improved thermal properties. These advantages are particularly valuable in industries such as aerospace, automotive, and healthcare, where the technology is used to manufacture parts ranging from turbine blades to custom medical implants. By minimizing material waste and reducing the need for multiple manufacturing steps, 3D metal printing not only streamlines production processes but also opens up new possibilities for innovation and design, fostering advancements in engineering and manufacturing disciplines.
1. Complexity and Design Freedom
3D metal printing allows for the creation of parts and components with complex geometries that would be difficult or impossible to achieve through traditional manufacturing methods. This freedom enables designers to innovate without the constraints of conventional processes.
2. Speed and Efficiency
The process of 3D metal printing is significantly faster than traditional manufacturing techniques, especially for prototyping or small batch production. It eliminates the need for multiple machines or processes to create a part, thus reducing the production time and accelerating the development cycle.
3. Waste Reduction
Traditional manufacturing methods, like machining, often result in a substantial amount of waste material. In contrast, 3D metal printing is an additive process, building objects layer by layer and using material only where it's needed, which significantly reduces waste.
4. Cost-Effectiveness for Low Volume Production
For small-scale production runs, 3D metal printing can be more cost-effective than traditional manufacturing. The initial setup costs for traditional methods can be prohibitive for low volume runs, whereas 3D printing allows for cost-efficient production without the need for expensive molds or tooling.
While evaluating the different suppliers make sure to check the following criteria:
1. Material Compatibility
Ensure the supplier supports a wide range of metals and alloys that are crucial for your specific 3D printing needs, offering you flexibility and variety in material selection.
2. Print Resolution and Precision
Examine the precision levels and minimum feature sizes the supplier's printers can achieve, which are vital for the quality and detail of the final product.
3. Production Capacity and Speed
Assess their ability to meet your volume needs within your desired timeframe, ensuring they can handle both small and large-scale projects efficiently.
4. Post-Processing Capabilities
Confirm if they offer post-processing services, such as heat treatment or surface finishing, which are often required for 3D printed metal parts to achieve the desired mechanical properties and surface quality.
5. Quality Assurance Processes
Inquire about the supplier's quality control measures and certification standards to ensure the consistency and reliability of the 3D printed products.
6. Experience and Portfolio
Review their past projects and experience in your industry to evaluate their expertise and capability to deliver as per your specific requirements.
In the aerospace industry, 3D metal printing is revolutionizing the production of complex components. This technology allows for the creation of lightweight, yet strong parts, significantly reducing aircraft weight and enhancing fuel efficiency. The ability to print parts on-demand also reduces inventory costs and lead times, streamlining the supply chain. The medical sector benefits from 3D metal printing through the customization of medical implants and surgical tools. Tailored to individual patient anatomy, these printed implants improve patient outcomes and comfort. The technology's precision ensures that tools and implants fit perfectly, reducing surgery times and improving recovery processes. In the automotive industry, 3D metal printing is employed to fabricate intricate parts for both prototyping and end-use applications. This method supports the rapid iteration of designs, accelerating the development process. Moreover, it enables the production of lighter, more efficient components, contributing to the overall performance and sustainability of vehicles. Manufacturing benefits broadly from 3D metal printing by enabling the cost-effective production of small batches of custom or complex parts. This flexibility is particularly valuable for high-value, low-volume products or for companies looking to innovate rapidly without the constraints of traditional manufacturing processes.
3D metal printing, a pivotal advancement in additive manufacturing, has reached a Technology Readiness Level (TRL) of 7 to 8. This classification signifies that the technology has evolved from prototype testing in a controlled environment to successful demonstrations in relevant operational settings. The progression to this TRL is underpinned by significant technical advancements and the resolution of earlier constraints. Key among these is the development of sophisticated metal powders tailored for specific applications, which has greatly enhanced the strength and integrity of printed components. Moreover, improvements in laser and electron beam technologies have enabled more precise and efficient energy delivery, crucial for achieving the high-quality, dense metallic structures necessary for industrial applications. The technology's ascent to its current TRL was also facilitated by advancements in software for 3D modeling and printing, allowing for more complex designs and better integration with existing manufacturing processes. Despite these advancements, the journey toward full commercialization (TRL 9) remains hindered by challenges such as high costs and the need for further standardization in materials and processes. Nonetheless, the current TRL reflects 3D metal printing's transition from experimental to more practical, real-world applications, marking a significant leap forward in the field of additive manufacturing.
In the Short-Term, advancements in 3D metal printing focus on improving material diversity and print speed. Manufacturers are experimenting with a wider range of metals and alloys, enabling more industries to utilize this technology for their specific needs. Concurrently, enhancements in printing speed without sacrificing quality are anticipated, driven by improved software algorithms and more efficient hardware designs. These changes aim to make 3D metal printing more accessible and cost-effective for small and medium-sized enterprises. Looking into the Mid-Term, the development of hybrid printing technologies is expected. These innovations combine traditional manufacturing processes with 3D metal printing, offering unprecedented versatility and efficiency in production. This phase will likely see the introduction of machines capable of switching between subtractive and additive manufacturing methods, depending on the task at hand. Such flexibility could revolutionize production lines, allowing for more complex and customizable products while reducing waste. In the Long-Term, the focus shifts towards sustainability and the creation of smarter, self-optimizing 3D printers. Future advancements might include printers capable of using recycled materials with minimal quality degradation, significantly reducing the environmental footprint of metal manufacturing. Additionally, the integration of artificial intelligence could lead to machines that can autonomously adjust printing parameters in real-time for optimal results, opening new frontiers in precision, material properties, and structural integrity.