Locanam 3D Printing

  According to Karsten Schlichter, global business development manager at Elkem Silicones, 3D printing offers greater flexibility and variability compared to traditional casting. Unlike casting, which involves creating molds for each item, 3D printing allows for more versatile manufacturing. Adjusting a mold manually lacks the precision of digital modeling. Each modification requires testing, success saves time, but failure restarts the iterative process, costing both time and money. With 3D printing, Schlichter highlights significant time savings, reportedly over 70%. This technology enables swift progression from concept to prototype to final product by allowing rapid iterations directly on the digital model, expediting the entire development process. FOR MORE -  The Future of 3D Printing in Patient-Specific Prosthetics and Implants

3D Printed Medical Devices & Implants Industry Size is estimated to exhibit a decent growth rate between 2024 and 2032, attributed to a rapid surge in demand for custom-printed medical implants and devices. The increasing incidences of dental and orthopedic disorders will push the demand for medical devices & implants, favoring the 3D printing production method. Based on components, the software segment is poised to foresee notable gain through 2032. There is high adoption rate of software components, aided by the increasing utilization of additive manufacturing technologies in the medtech industry. This includes spitting out a 3D-printable file of a medical image, ensuring that a 3D printer is printing to spec, designing a complicated 3D structure at a rapid pace.   The market is estimated to record substantial gains from the laser beam melting segment during 2024-2032, driven by the extensive usage of this powder bed-based additive manufacturing process. Various manufacturers

  3D printing has transcended its initial use in prototyping to revolutionize full-scale manufacturing and the production of high-quality finished products. Initially developed for aerospace prototyping, 3D printing now significantly impacts various industries, including healthcare and cosmetics. This technology enhances the flexibility of manufacturing sites and lines, making supply chains more agile. Traditional manufacturing relies on product-specific tooling, necessitating retooling for product modifications or variations. In contrast, 3D printing eliminates the need for tooling. A single 3D printing system can produce a wide range of products using various materials, thereby increasing production line flexibility and speeding up time to market. Supply chains that incorporate 3D printing become more agile, resilient to unexpected disruptions, and better equipped to respond to market demand changes. Processes like CNC milling or injection molding in traditional manufacturing require

  Additive manufacturing is one of the key areas of manufacturing in which artificial intelligence is making an impact. The two technologies — AI and additive manufacturing — have risen sharply in adoption over the past several years, and we are now seeing the benefits that they can yield by working together. AI in additive manufacturing is providing quality improvements, boosts to innovation and productivity, and has an overall positive impact on profit margins and the bottom line. FOR MORE -  How Artificial Intelligence is Revolutionizing Additive Manufacturing

  The Locanam Blog is your go-to source for the latest developments in the 3D printing industry. We explore the dynamic interplay between 3D printing technology and various sectors, keeping you informed about groundbreaking innovations and trends. 3D Printing Blog | Locanam Blog Post

Biomimicry and 3D printing are increasingly being integrated, particularly as more natural materials are developed and innovative patterns or structures are introduced into part design. Specifically, 3D printing plays a significant role in replicating nature. This approach is applicable across a wide range of industries, including architecture, consumer goods, and fashion. One example is the creation of a 3D-printed biomimetic shoe using SLS technology and flexible TPE, a material that provides excellent comfort and flexibility. This unique design, inspired by roots and life, is depicted below. Another project is the Pleurobot, a salamander robot capable of swimming underwater or crawling like a real salamander. Developed by the Federal Polytechnic School of Lausanne (EPFL) in Switzerland, the robot features 3D-printed bones and motorized joints that imitate the movements of a salamander. FOR MORE - https://www.locanam.com/post/biomimicry-with-3d-printing

  3D printing, also known as additive manufacturing (AM), is an innovative advancement poised to profoundly influence global supply chains and operations. Contrary to being a futuristic concept, it is a current reality with substantial implications. As stated in the Global Supply Chain Institute's white paper, New Supply Chain Technology Best Practices, some experts in supply chain management anticipate that 3D printing will eventually match the transformative impact of Henry Ford's assembly line. This technology empowers businesses to achieve significant cost reductions, navigate geopolitical risks and tariffs, enhance customer service, minimize environmental impact, and foster innovation to gain a competitive edge. Whether one believes it will revolutionize production and supply chains or simply enhance them, dismissing its potential is not advisable. FOR MORE - https://www.locanam.com/post/3d-printing-impacts-on-the-global-supply-chain

  3D printing has emerged as a transformative technology in modern manufacturing and prototyping, revolutionizing traditional production methods. Among the many materials utilized in this  innovative technology, plastics stand out for their versatility, affordability, and adaptability to various applications across different industries.  The versatility of plastics in 3D printing is unparalleled. With a wide range of plastic materials available, including ABS, PLA, PETG, and more, each with unique properties and characteristics, 3D printing can cater to many requirements. Plastics can be engineered to possess varying degrees of flexibility, strength, durability, heat resistance, and even transparency, making them suitable for an extensive array of applications. From creating intricate components for the aerospace industry to personalized prosthetic limbs in healthcare, the adaptability of plastics in 3D printing knows no bounds. Let’s delve into the groundbreaking and creative applicat

  Contact us for all your product design, material analysis, prototyping, 3d printing , prototyping cost,  and product manufacturing needs. Start by taking small steps, and  get that prototype made. The time to create is now. Sales & Service: +91 7217 686 823 info@locanam.com

  When dealing with a 3D printer, understanding the appropriate material for your specific technology is crucial. Fused deposition modeling (FDM) utilizes filament, liquid crystal display (LCD) works with resin, and selective laser sintering (SLS) relies on powder, among other methods. ​ If you're beginning with a particular material in mind and tailoring your 3D printing process accordingly, it's important to note that there are often multiple technologies compatible with a single material. Take carbon fiber nylon, for instance, which is accessible in filament, pellets, and powder formats, making it suitable for both FDM and SLS. Similarly, aluminum is available in filament, powder, and wire forms for various 3D printing technologies, each offering distinct characteristics and cost considerations. FOR MORE - https://www.locanam.com/materials3dprinting

Within the healthcare sector, 3D printing finds valuable application in crafting intricate scaffolds that replicate the structure of human tissues or organs. These scaffolds serve as a supportive framework for cell growth and adhesion, thereby promoting tissue regeneration. While 3D printing may not always outpace traditional manufacturing methods in terms of speed for every product type, it does streamline the production of specific medical devices and components. The trend towards products tailored to individual patient anatomy is gaining momentum, with options available from both large-scale manufacturers and on-site 3D printing facilities in healthcare settings. This shift towards patient-specific customization diminishes the necessity for extensive mass production and centralized manufacturing. Instead, it fosters decentralized production, allowing parts to be printed as and where needed, potentially saving time and resources. FOR MORE - https://www.locanam.com/3dprintinghealthcar

3D printing, or additive manufacturing, is super important in making airplanes. In the aerospace world, where every ounce counts, 3D printing helps create planes that are lighter and use less fuel, saving tons of money. It's a big deal because it lets aerospace companies make parts in a cheaper and more efficient way. Aerospace folks were some of the first to really use 3D printing to make important airplane parts. This new way of making things has changed how we design and build planes. And as 3D printing gets better and better, the aerospace industry keeps benefitting from it. In aerospace, 3D printing isn't just for making prototypes or tools. It's also used for making actual parts of airplanes, like nozzles and control panels. FOR MORE - https://www.locanam.com/3d-printing-in-aerospace

Drones are increasingly being used across various sectors like the military, agriculture, photography, and more. Every day, drones continue to draw more industries with their capabilities. There is a wide variety of drones available in the market that are made to suit the needs of the user. One of the innovations enhancing the utility of drones is 3D printing. 3D printing enables drones to be produced with more versatility and flexibility. This allows users to have easy access to drones at affordable prices, catering to a broad range of applications and industries. With 3D printing, manufacturers can meet specific needs of clients, come up with new products, and enhance existing designs much quicker. Doing 3D printing in-house speeds up the time it takes to develop things, which means teams can collaborate more closely with customers to tackle unique projects. FOR MORE - https://www.locanam.com/3d-printing-in-drone

Robotics is a fascinating blend of science, technology, and engineering dedicated to creating sophisticated robots that can perform tasks akin to human activities. A significant breakthrough in this field is the advent of 3D printing, which is revolutionizing the way robots are designed and manufactured. The Magic of 3D Printing in Robotics 3D printing acts like a magic wand for building robots. It simplifies the process for companies, allowing them to develop customized robots tailored to specific tasks. This flexibility means that robots can be efficiently produced for diverse applications, whether it's in manufacturing plants, medical facilities, construction sites, or even extraterrestrial environments. Transformative Impact Across Industries In various industries, 3D printing is making significant waves. It provides the capability to create complex parts and structures that were previously difficult or impossible to manufacture using traditional methods. FOR MORE - https://www

Selective Laser Sintering (SLS) can 3D print parts with slightly grainy surfaces, good printing accuracy, excellent mechanical properties, and high strength. SLS 3D printing suits aerospace, drones, robotics, tooling, medical, architecture, and consumer goods applications. Additive manufacturing, commonly known as 3D printing (3DP), is revolutionizing rapid prototyping and production lines across various industries. This technology encompasses several methods, each distinguished by the materials and processes they employ. Locanam, a Delhi-based company, offers comprehensive 3D printing and prototyping services. Utilizing advanced SLS 3D printing technology, Locanam ensures high-quality results and exceptional service. FOR MORE-   https://www.locanam.com/sls-3d-printing-service

Stereolithography or SLA is one of the original 3D printing technologies and one of the most versatile. Our custom SLA Printing Service builds parts layer by layer from a photocurable resin. A high-powered UV laser is focused onto the build platform to cure the material one layer at a time. SLA is a range of material options and provides parts with good accuracy using CAD and a good surface finish. The parts need to be built with support structures which are removed after the SLA 3D Printing process SLA 3D Printing | Stereolithography

 Design for Additive Manufacturing (DFAM) comprises a set of guidelines and best practices essential for designers and engineers to achieve optimal outcomes in printed part designs. Additive Manufacturing (AM), commonly referred to as 3D printing (3DP), encompasses various technologies such as stereolithography (SLA), selective laser sintering (SLS), fused deposition modeling (FDM), direct metal laser sintering (DMLS), among others. DFAM encompasses considerations related to the chosen printing technology, part geometry, materials selection, and any necessary post-processing steps to enhance the strength or aesthetics of the parts. Additionally, considerations play a crucial role, as the design approach can significantly impact the overall expenses, making it either excessively expensive. We provide 3d printing services in FDM, SLA, SLS, DMLS, MJF, and DLP. We can help you in the design phase as well ( CAD/CAM).   FOR MORE - https://www.locanam.com/dfamdesignforadditivemanufacturing

  Locanam is a company based in Delhi, India which provides 3d printing and prototyping services. We help our clients overcome the constraints of traditional manufacturing and their products faster in the market by accelerating the prototyping process. 3d printing technology has several benefits over traditional manufacturing technologies like a decrease in the prototyping and lead times. There are different applications of 3D printing Ranging from Prototyping, small batch production, and mass manufacturing. We provide 3d printing services in FDM, SLA, SLS, DMLS, MJF, and DLP. We can help you in the design phase as well ( CAD/CAM) Know more -  Locanam 3D Printing

 Digital inventories consist of computer files that represent products, spare parts, and components, allowing for the production of real items on demand. These files are typically CAD drawings formatted for 3D printing, such as STL, OBJ, AMF, or 3MF. Companies can store parts virtually by utilizing digital inventories rather than maintaining extensive physical stock. This approach enables manufacturers to produce components quickly by printing them from their design files as required. Digital inventory management represents a crucial asset for businesses aiming to streamline their stock monitoring efficiently. Diverging from conventional paper-based techniques, this application simplifies the process, rendering it user-friendly and readily accessible. Entrepreneurs find it effortless to upload images or scans of their current inventory, facilitating the tagging and categorization of items online. Know More About Locanam Digital inventory

  Locanam is a company that provides 3d printing and prototyping services. They help their clients overcome the constraints of traditional manufacturing and get their products faster in the market by accelerating the prototyping process. 3d printing technology has several benefits over traditional manufacturing technologies, like decreased prototyping costs and lead times. There are different applications of 3D printing Ranging from Prototyping, small batch production, Industry Specific Solutions, and even mass manufacturing. They help you identify Where the technology can excel and overpower traditional manufacturing methods in terms of quality, and production and tackle the problems associated with the supply chain as well. We at Locanam Help our clients Identify the areas where they can use 3d printing in their business workflow and completely unlock the potential of their business. FOR MORE ABOUT 3D PRINTING -  https://www.locanam.com/

Locanam is a company that provides 3d printing and prototyping services. We help our clients overcome the constraints of traditional manufacturing and get their products faster in the market by accelerating the prototyping process. 3D printing technology has several benefits over conventional manufacturing technologies, like decreased prototyping costs and lead times. There are different applications of 3D printing Ranging from Prototyping, small batch production, Industry Specific Solutions, and even mass manufacturing. We help you identify Where the technology can excel and overpower traditional manufacturing methods in terms of quality, and production and tackle the problems associated with the supply chain. We at Locanam Help our clients Identify the areas where they can use 3d printing in their business workflow and completely unlock the potential of their business.  FOR MORE - 3D Printing Service

Powder Bed Fusion (PBF) stands as a notable Additive Manufacturing (AM) technique, characterized by its layer-by-layer approach to creating objects. With its potential applications across automotive, aerospace, energy sectors, and household appliances, PBF represents a pivotal future manufacturing method. Alongside PBF, other AM methods like Laminated Object Manufacturing, Direct Energy Deposition, Stereolithography (SLA), and Solid Ground Curing (SGC) contribute to the diverse landscape of additive manufacturing. This overview will focus on the mechanics of the PBF process, particularly highlighting Direct Metal Laser Deposition (DMLS), Selective Laser Sintering (SLS), Selective Laser Melting (SLM), Electron Beam Melting (EBM), and Selective Heat Sintering (SHS). In these techniques, a layer of powder is spread onto a platform, often referred to as the build platform. While SLS, SLM, and DMLS employ lasers as the primary heat source, EBM utilizes an electron beam. SHS, on the other ha