Staying ahead of the technology curve means strengthening your competitive advantage. That is why we give you data-driven innovation insights into additive manufacturing technologies. This time, you get to discover 5 hand-picked metal laser sintering startups.
Global Startup Heat Map highlights 5 Top Metal Laser Sintering Startups out of 106
The insights of this data-driven analysis are derived from the Big Data & Artificial Intelligence-powered StartUs Insights Discovery Platform, covering 2.093.000+ startups & scaleups globally. The platform gives you an exhaustive overview of emerging technologies & relevant startups within a specific field in just a few clicks.
The Global Startup Heat Map below reveals the distribution of the 106 exemplary startups & scaleups we analyzed for this research. Further, it highlights 5 metal laser sintering startups that we hand-picked based on criteria such as founding year, location, funding raised, and more. You get to explore the solutions of these 5 startups & scaleups in this report. For insights on the other 101 metal laser sintering solutions, get in touch.
3D Usher offers On-Demand Direct Metal Laser Sintering (DMLS)
Rapid manufacturing is one of the critical benefits that make companies shift to 3D printing. When it comes to prototyping or bulk production of metallic parts, metal laser sintering is an effective alternative to just-in-case manufacturing models. Moreover, DMLS supports complex designs and minimizes material waste, allowing manufacturers to save costs while developing prototypes and unique parts.
Based in the US, 3D Usher is an additive manufacturing startup that offers online on-demand manufacturing solutions. The startup’s on-demand DMLS 3D printing uses stainless steel, mild steel, and other metal alloys as feedstock. 3D Usher provides high-strength, as well as temperature- and corrosion-resistant parts, for automobile and aerospace industries that use metal powders. Further, the startup enables on-demand manufacturing using injection molding, computer numeric control (CNC) machining, and vacuum casting, among other 3D printing techniques.
ADDITIVA enables End-to-End Product Development
DMLS allows designers to develop mechanically robust structures, as well as produce the parts quickly. In effect, this significantly reduces the product development time. For example, designers physically test various designs with a short turnaround time, allowing for reiterative design changes. That is why startups develop metal sintering solutions to assist designers and manufacturers speed up new product development and decrease time to market.
Italian startup ADDITIVA offers end-to-end product development solutions using DMLS, selective laser melting (SLM), and CNC machining for automotive, aerospace, defense, and energy industries. The startup uses a wide range of alloys, such as Aluminium AlSi10Mg, Titanium Ti6Al4V, and Stainless Steel 316L, to develop required parts. Further, they help part manufacturers in product designing, including 3D model development, generative design, finite element analysis, and computational fluid dynamics (CFD). ADDITIVA also provides in-house mechanical and optical testing for finished products.
Geomiq provides Custom Manufacturing Solutions
The key advantage of metal laser sintering is the ability to develop complex parts, be it a support structure for automobiles or a custom part. Manufacturers use DMLS to generate metal parts that are otherwise complex for manual assembling with conventional subtractive manufacturing methods. Startups offer rapid production of metal parts with better mechanical features and mass customization of components specific to customer requirements.
Geomiq is a British startup that offers custom manufacturing using its digital platform. The startup’s platform allows engineers and designers to create custom manufacturing parts with complex geometry and reduce turnaround time. Further, they provide other additive manufacturing solutions such as SLS, stereolithography, fused deposition modeling, and more. Additionally, Geomiq enables production units to use their CNC machining and injection molding services to facilitate prototyping and mass production.
Precision ADM offers Advanced Digital Manufacturing
Metal laser sintering offers better mechanical properties to the finished product as the powder is fused, reducing internal stress. That is why DMLS is an ideal technique for automotive and aerospace applications. Moreover, this technique offers a range of materials for designers to choose from, depending on the project specifications. Startups utilize advancements in materials and additive manufacturing to develop solutions that improve mechanical properties and reduce production times.
Canadian startup Precision ADM offers advanced digital manufacturing solutions for medical, aerospace, and defense applications. The startup’s DMLS additive manufacturing service supports a wide range of metal alloys such as Aluminium AlSi10Mg, CobaltChrome SP2, and more, tailored for the component requirements. Precision ADM further provides engineering and design, post-production processing, machining, and metallurgy solutions. Together, the solutions help manufacturers improve their productivity.
Lycan 3D develops a Digital Manufacturing Ecosystem
3D printing allows startups to freely design and enhance end-product accuracy. By using direct metal laser sintering, manufacturers complete production in a single station, in turn, reducing lead time. 3D printing startups increasingly function as an extension to manufacturing capabilities and allowing businesses to implement rapid prototyping. This way, startups help factories reduce operational expenses and significantly speed up production.
Lycan 3D is an Indian startup that develops a digital manufacturing ecosystem to assist engineers and manufacturers in the aerospace, automotive, and consumer goods industries. The startup offers end-to-end product development, from 3D printing to product quality checking, using DMLS. Lycan 3D’s other additive manufacturing solutions include binder jetting, ceramic printing, fused deposition modeling, and multijet fusion, among others. In addition to developing 3D printers, the startup also prints COVID-induced personal protective equipment (PPE).
Discover more Additive Manufacturing Startups
Startups, such as the examples highlighted in this report, focus on rapid prototyping, product development, and digital manufacturing solutions. While all of these technologies play a major role in advancing the manufacturing sector, they only represent the tip of the iceberg. To explore more additive manufacturing technologies, simply get in touch to let us look into your areas of interest. For a more general overview, you can request our free Additive Manufacturing Technology Preview to save your time and improve strategic decision-making.