Mithra3dtech

The Trivima Bioprinter installation at JISIASR Kolkata for PROSENJIT SAHA’s lab was one of the first for us at Next Big Innovation Labs® . The trust put in by Dr. Saha and his team in our Make in India technology provided us the impetus and the confidence to delve deeper into customising Bioprinters for research applications. A truly proud moment for us as Trivima is featured on the cover of Dr. Saha’s book on Bioprinting from lab to industry.

I’ve been waiting for this for so long! It’s finally available 🙌❤️ A big thank you to Formlabs software team for delivering so many great FREE features that will hugely benefit our users! 🔥🙌 These are just some of the most recent updates in PreForm. Tomorrow, I’ll share more major updates from the latest software release. Thank you, Dr. Elisa Praderi Stanham for the great video highlighting how our dental users will benefit from this update.

#Day66 of #100Days of #3DPrintingLearningseries with Mithra3dtech : #3D Printed #Prosthetics and #Bionics In today’s post, we explore how 3D printing is transforming the world of prosthetics and bionics. Traditional prosthetics are often expensive, time-consuming to produce, and difficult to customize. However, 3D printing technology has paved the way for affordable, highly customizable prosthetic limbs, allowing users to have devices tailored to their exact needs. What’s more exciting is the integration of bionics with 3D printed prosthetics. These devices are not only personalized to the user’s anatomy but also include robotic functions, enhancing mobility and control. Whether it's a child needing a lightweight prosthetic or an advanced bionic arm with motor functions, 3D printing is providing solutions that are both cost-effective and accessible globally. This technological advancement is offering new hope to millions by improving mobility, independence, and quality of life. #3DPrinting #Prosthetics #Bionics #HealthcareInnovation #AdditiveManufacturing #TechForGood #Mithra3DTech

#Day65 of #100Days of #3DPrintingLearningseries with @Mithra3DTech: #CaseStudy6 – Elastium and Lalaland's #3DPrinted #Shoes Case Study: #Elastium and #Lalaland – Innovating Footwear with a Hybrid Production Model #The_Challenge: Elastium and Lalaland, two leading companies in footwear and fashion technology, aimed to bring innovation into the world of customizable shoes. Traditional shoe manufacturing is rigid, often slow, and produces waste due to inefficiencies in the production cycle. The companies needed a solution to streamline production while offering customers personalized, high-performance shoes. #The_Solution: The companies adopted a hybrid production model, combining 3D printing with traditional manufacturing methods. Elastium developed elastomeric materials suitable for 3D printing, enabling the creation of flexible, durable, and comfortable shoe components. By leveraging 3D printing technology, they produced custom midsoles that adapt to the unique shape of each customer’s foot, while the hybrid approach ensured mass production could be scaled efficiently. #The_Impact: 1. Customization: The hybrid production model allowed for on-demand customization, enabling customers to receive shoes tailored specifically to their needs. 2. Reduced Waste: The use of 3D printing helped minimize material waste by printing only what was needed. 3. Faster Time to Market: The combination of 3D printing and traditional manufacturing methods reduced production time, allowing for quicker product releases. Broader Implications: This case demonstrates how the integration of 3D printing into fashion can revolutionize manufacturing processes by making production more sustainable, customizable, and efficient. The partnership between Elastium and Lalaland is a significant step forward in the footwear industry, showcasing the potential of 3D printing for personalized fashion solutions. Read more about this innovative case study here. #3DPrinting #FootwearInnovation #AdditiveManufacturing #Sustainability #HybridManufacturing #Mithra3DTech Stay tuned for more exciting case studies from our 100 Days of 3D Printing series! https://lnkd.in/gFQPjS5B

💪 Empowering Active Lifestyles with HP Multi Jet Fusion Technology 💪 At HP 3D Printing, we’re proud to see how our technology is helping customers like Quorum Prosthetics redefine possibilities in prosthetic care. Their incredible work with 3D printed sockets enables people of all ages to lead active, dynamic lives—whether it's running, cycling, or simply enjoying everyday activities. 🚴♂️🏃♀️   With HP Multi Jet Fusion (MJF), prosthetic devices can deliver high resistance and durability for optimal performance, ensuring that users get the support they need to maintain a sporty, active lifestyle. ⚡ MJF technology provides customized comfort and precision, allowing for lightweight, resilient prosthetics that are as tough as the people who use them.   We’re excited to continue shaping the future of prosthetics, one 3D printed socket at a time! 🙌   Continue to explore how HP MJF can revolutionize the O&P industry and enable a life without limits here: https://lnkd.in/dnCiMrPD    #3DPrinting #Prosthetics #HP3DPrinting #MJF #AdditiveManufacturing #OandP

#Day63 of #100Days of #3DPrintingLearningseries with Mithra3dtech : 3D Printing Aids Complex #HeartSurgery – #CaseStudy4 Today, we bring you a heartwarming case study of how 3D printing saved a young boy’s life through precise surgical planning for a rare congenital heart defect, #Anomalous Left Coronary Artery from the Pulmonary Artery (ALCAPA). This condition leads to oxygen-poor blood flowing to the heart, causing ischemia and potential heart failure if not treated in time. #The6Challenge: A 15-year-old boy was diagnosed with ALCAPA, a rare congenital condition where the left coronary artery originates from the pulmonary artery instead of the aorta. To prevent major complications and heart failure, surgeons needed a clear plan for the rerouting of the heart’s arteries before performing the surgery. #The_Solution: Using 3D medical printing, doctors created a highly detailed 3D model of the boy’s heart. This allowed surgeons to visualize the exact anatomical structure and carefully plan the surgery. The 3D model made it possible to identify the best rerouting path, ensuring precision during surgery and reducing risks. #The_Impact: 1. Precision Planning: The 3D printed model gave surgeons a clear view of the complex heart structure, enabling them to simulate the procedure beforehand. 2. Reduced Surgery Risks: By visualizing the patient’s unique heart anatomy, doctors were able to minimize potential complications during the actual surgery. 3. Improved Patient Outcomes: The successful use of 3D printed models in medical practice is transforming surgical procedures and leading to better, faster recoveries. This case demonstrates the crucial role 3D printing plays in modern medicine, allowing for highly detailed models that assist doctors in planning complex surgeries with greater confidence and precision. In the field of congenital heart defects, #3Dprinting is proving to be a #life-saving technology. #Conclusion: The integration of #3Dprinting into the #healthcare sector is revolutionizing #surgical planning and #treatment, particularly in challenging cases like #ALCAPA. By helping surgeons navigate complex anatomy, it’s improving outcomes and saving lives. #3DPrinting #MedicalInnovation #CongenitalHeartSurgery #Medical3DPrinting #AdditiveManufacturing #Mithra3DTech

#Day62 of #100Days of #3DPrintingLearningseries with Mithra3dtech: #Adidas and #3DPrinting for #Customized #Footwear #CaseStudy: adidas – 3D Printing in Customized Footwear Manufacturing #The_Challenge: adidas , a global leader in sportswear, sought to revolutionize its footwear manufacturing process by offering customers customizable, high-performance shoes. Traditional shoe manufacturing methods required molds and assembly lines that were both costly and time-consuming, limiting the ability to quickly adapt designs or offer personalized options. #The_Solution: adidas partnered with Carbon, a leader in digital light synthesis (DLS) technology, to introduce 3D printing to their Futurecraft 4D shoe line. By leveraging Carbon’s unique 3D printing process, Adidas was able to create custom midsoles designed to enhance athletic performance. The Futurecraft 4D shoes feature intricate lattice structures that would be impossible to manufacture with traditional methods, providing lightweight support and energy return. #The_Impact: 1. #Customization: 3D printing allowed Adidas to tailor the shoe’s design to meet individual needs, providing athletes with personalized footwear for improved performance. 2. #Reduced_Lead_Times: The ability to 3D print custom soles directly from digital files reduced development time and made it easier to iterate designs. 3. #Sustainability: 3D printing enabled Adidas to reduce waste in the manufacturing process by eliminating excess material and overproduction. #Notable_Results: #Futurecraft_4D: Adidas launched the Futurecraft 4D series featuring 3D-printed midsoles designed for optimal performance. The shoes became popular among professional athletes for their custom fit and durability. #Scalability: Adidas continues to explore ways to scale 3D printing across their entire footwear line, moving beyond limited editions and into mainstream production. Broader Implications: This case study highlights the potential for 3D printing in consumer goods manufacturing, where customization and rapid prototyping can enhance product quality, reduce waste, and meet evolving customer demands. Adidas' collaboration with Carbon showcases how additive manufacturing can disrupt traditional processes in the fashion and sportswear industries. #3DPrinting #Adidas #Futurecraft4D #AdditiveManufacturing #FootwearInnovation #Mithra3DTech For more details, you can refer to Adidas’ collaboration with Carbon via TCT Magazine and 3DPrint.com for further reading on the Futurecraft 4D shoe and its impact.

Check out this 3D printed rotary engine, crafted using our Pratham 3.0 printer with high-performance PC-ABS material! A perfect blend of precision and strength, showcasing the capabilities of #AdditiveManufacturing in creating durable and complex parts. Proud to support innovation in engineering and design with our state-of-the-art 3D printing solutions. #3DPrinting #Engineering #Innovation #Make3D #RotaryEngine #PCABS #Pratham3.0"

#Day61 of #100Days of #3DPrintingLearningSeries with Mithra3dtech : Ford Motor Company – 3D Printing for Custom Tooling #CaseStudy2: Ford Motor Company and #3DPrinting for #Tooling and #Prototyping #The_Challenge: Ford Motor Company, one of the world’s largest automakers, sought to reduce production times and costs for custom tools and prototypes. Traditionally, creating custom tools was both time-consuming and expensive, with lead times of several weeks or months. #The_Solution: Ford adopted 3D printing technology to create custom tools, jigs, and fixtures used in vehicle production. Using this approach, Ford was able to rapidly design, prototype, and print tools in-house. Ford integrated 3D printing technologies such as #Fused_Deposition_Modeling (FDM) and Stereolithography (SLA), enabling them to quickly manufacture custom tooling for vehicle assembly lines. #The_Impact: 1. #Cost_Savings: #Ford reduced the cost of creating custom tools by up to 90%. For example, a traditionally machined prototype tool that would cost around $10,000 to produce was reduced to just $500 using 3D printing. 2. #Faster_Lead_Times: #3D printing reduced the time to produce tools from several weeks to just days, significantly speeding up the production process. 3. #Greater_Flexibility: 3D printing allowed Ford to produce complex, lightweight tools that were easier for workers to handle, improving ergonomics on the assembly line. #Notable_Examples: 3D Printed Engine Components: Ford used 3D printing to prototype and test engine components, including intake manifolds. These prototypes were produced in a matter of days, allowing for rapid iteration and design changes. Custom Assembly Line Tools: Ford’s 3D printed assembly tools helped workers handle and position vehicle parts more efficiently, reducing time and labor. #Broader_Implications: #Ford’s use of 3D printing extends beyond prototyping into actual production applications. They are exploring additive manufacturing for mass customization, offering unique vehicle features for customers based on their specific needs. This case study highlights how 3D printing can transform automotive manufacturing, reducing costs, increasing efficiency, and enabling more innovative product development. #3DPrinting #Ford #AdditiveManufacturing #AutomotiveInnovation #Tooling #Mithra3DTech For more detailed reading, check Ford's advancements in 3D printing on 3DPrint.com and TCT Magazine.