Pelagus 3D and Doosan Enerbility Forge Strategic Alliance, Stryker setups up new R&D Facility in India and more
Aditya Chandavarkar
Driving Innovation in Additive Manufacturing, Emerging Tech & Composites | Ecosystem Builder | Connecting India, Asia & Middle East | Let's Forge Synergies! ??
Explore the latest news in Additive Manufacturing with AM Chronicle’s round up of Week 9 of 2024.
The round up of the week includes collaboration between ADDiTEC and Mecha ; Velo3D launches Flow Developer Software; Strategic Alliance between Pelagus 3D and Doosan Enerbility ; Stryker Boosts Innovation in India with New R&D Facility and more.
#3dprinting #additivemanufacturing #weeklynews AM Chronicle
Production Ready Additive Manufacturing Technology
In this AMUG (Additive Manufacturing Users Group) special episode of AM Infocast featuring Clara Remacha Corbalán & Rita Bermúdez Esquerra from HP . Join me in this conversation as Rita and Clara share key trends emerging in 2024 for adoption of Additive Manufacturing, Solutions HP is providing and what they look forward to from AMUG
HP 3D Printing #hp3dprinting
ADDiTEC and MECHA, Join Forces to Elevate Metal Manufacturing Excellence
ADDiTEC, a trailblazer in advanced metal manufacturing, is thrilled to announce a strategic partnership with?MECHA, Inc., a distinguished full-service provider of machining services. This collaboration leverages ADDiTEC’s cutting-edge metal printing technologies with MECHA’s extensive capabilities in high volume precision machining and finishing services.
Velo3D Announces Launch of Flow Developer Software Tool?
Flow Developer is a new offering inside Velo3D’s Flow 7.0 version of its print preparation software and is said to ‘unlock full transparency and control of the parameters used in the 3D printing process. With Flow Developer, users will now be able to transfer their experience and knowledge from previous projects, develop new material processes and control their optimisation objectives.
3D Systems Corporation Introduces Industry’s First Multi-material, One-piece Jetted Denture Solution?
3D Systems?introduced a first-to-market solution for jetted, monolithic (one-piece) dentures that utilizes multiple materials to deliver a durable, long-wear, aesthetically beautiful prosthetic to the patient.
RMIT University 3D prints super strength titanium structures?
RMIT University researchers created the new metamaterial – a term used to describe an artificial material with unique properties not observed in nature – from common titanium alloy.
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Pelagus 3D and Doosan Enerbility Forge Strategic Alliance to Advance Additive Manufacturing?
Scientists Develop Anti-fatigue 3D-Printed Titanium Alloy
A team of international scientists has broken through the technological bottleneck caused by the poor fatigue properties of 3D-printed materials, and proposed an innovative strategy to fabricate an anti-fatigue titanium alloy via near void-free 3D printing.
Next generation of energetic materials to be developed at Virginia Tech?
Virginia Tech has established itself as a global leader in additive manufacturing, as students are utilizing 3D printing technologies to rapidly produce parts and prototypes and a number of research groups are making ground-breaking discoveries in the?manufacturing of metals. Now, the university can add smart energetics to that list.
Stryker Boosts Innovation in India with New R&D Facility, Emphasizes Additive Manufacturing Leadership
Stryker ’s new R&D facility in India showcases the company’s commitment to innovation, quality, and sustainability in medical technology. With a focus on additive manufacturing and leveraging Indian talent, Stryker is at the forefront of driving global healthcare solutions.
This 3D-printed Hydrogel Material Could be Used to Build Homes One Day?
Researchers at Chalmers University of Technology and the Wallenberg Wood Science Centre in Sweden 3D printed a hydrogel material made of nanocellulose, a substance derived from cellulose fibres found in plants.
Researchers hack a 3D printer to speed up fabrication of bioelectronics?
A research team at KTH Royal Institute of Technology and Stockholm University reported a simple way to fabricate electrochemical transistors using a standard Nanoscribe 3D micro printer. Without cleanroom environments, solvents, or chemicals, the researchers demonstrated that 3D micro printers could be hacked to laser print and micropattern semiconducting, conducting, and insulating polymers.
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