3D printing books
In the opinion of Lead author and Ph.D. candidate from RMIT University’s School of Engineering, Carmelo Todaro, “the promising results could inspire new forms of additive manufacturing.
If you look at the microscopic structure of 3-D printed alloys, they’re often made up of large and elongated crystals.
This can make them less acceptable for engineering applications due to their lower mechanical performance and increased tendency to crack during printing.
But the microscopic structure of the alloys we applied ultrasound to during printing looked markedly different: the alloy crystals were very fine and fully equiaxed, meaning they had formed equally in all directions throughout the entire printed metal part.”
According to New York-Presbyterian Hospital Endocrinology,” She has published widely in the medical literature and is co-editor of the book, The Bone and Mineral Manual.Dr. Siris served as the Medical Director of NORA, the National Osteoporosis Risk Assessment, a public health initiative and longitudinal study of osteoporosis that included over 200,000 postmenopausal women in the US. Most recently her research activity has focused both on risk factors for osteoporosis and treatment adherence with osteoporosis medications. Siris has been interviewed frequently on both television and radio and is often quoted in print media regarding osteoporosis.”
The Osteoporosis Manual: Prevention, Diagnosis, and Management
According to NewYork-Presbyterian,” Dr. Farooqi went on to complete an advanced imaging fellowship at Kravis Children’s Hospital, Icahn School of Medicine at Mount Sinai. Dr. Farooqi’s research focuses on the use of 3D printed and digital cardiac models to improve care for patients with congenital heart disease. She was granted the Glorney Raisbeck Fellowship Award by the New York Academy of Medicine to identify the optimal cardiac MRI sequences in creating 3D models. Prior to joining Columbia, Dr. Farooqi was a full-time faculty member at the Rutgers New Jersey Medical School for two years and led the pediatric cardiology service for the University Hospital in Newark.”
Rapid Prototyping in Cardiac Disease: 3D Printing the Heart
According to the lead author of the research paper, Dr. Rahul Karyappa from SUTD and Principal investigator, Assistant Professor Michinao Hashimoto from SUTD, “The simplicity and flexibility of Ci3DP offer great potential in fabricating complex chocolate-based products without the need for temperature control.
Ci3DP is capable of fabricating customized food in a wide range of materials with tailored textures and optimized nutritional content. This new approach also widens the industry’s capabilities in 3D food printing, allowing for the cold-extrusion of food products that are temperature-sensitive.”
The concept of chocolate-based ink 3D printing (Ci3DP) involves liquid chocolate products mixed with edible additives and printed by a direct ink writing (DIW) 3D printer at room temperature. The formulated inks allowed easy extrusion through the syringes and nozzles and form self-supporting layers after extrusion to maintain the printed structures.
According to Peter H. Diamandis, MD, “3D Printing zero-waste products are coming, Welcome to the 2030 era of tailor-made, rapid-fire, ultra-cheap, and zero-waste product creation… on our planet, and far beyond. 3D Printing on the ISS.
Today, the most expensive supply chain in the known universe extends only 241 miles. Jutting straight up from mission control down here on Earth, this resupply network extends directly to the astronauts aboard the International Space Station (or the ISS).”