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Archive for the ‘3D printing’ category: Page 18

Nov 29, 2022

This 3D Printed House Only Cost $13,000 In Materials

Posted by in categories: 3D printing, Elon Musk, habitats

Construction and 3D Printing. This is a really cool video. There is demand for affordable housing, and it can be built and rented out, or just lived in. Imagine if many people where you live are empowered with simple housing. Would it be a waste of money if it can pay for itself?

This is the cool company that makes these cool machines. The USA sent $1 billions in weapons to Ukraine in one month, to a war that costs $1 billion a month. Elon Musk just paid $44 billion for Twitter when a $50 billion investment in affordable housing could net him how much in rental income if the houses cost $15,000 in materials?

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Nov 29, 2022

Volumetric Bioprinter 3D Prints Liver Organoids in Less than 20 Seconds

Posted by in categories: 3D printing, bioprinting

Volumetric 3D printing is an exciting technology that could lead to extremely rapid production of 3D printed parts by curing every particle of the object at once. Now, researchers from Utrecht University are applying the process to bioprinting and have 3D printed functioning liver units at centimeter scale in less than 20 seconds. The results were published in Advanced Materials.

Nov 23, 2022

3D Printing in Breast Reconstruction: From Bench to Bed

Posted by in categories: 3D printing, bioengineering, bioprinting, biotech/medical, computing

Circa 2021:3


Surgical management of breast cancer often results in the absence of the breast. However, existing breast reconstruction methods may not meet the need for a replacement tissue. Tissue engineering with the use of emerging materials offers the promise of generating appropriate replacements. Three-dimensional (3D) printing technology has seen a significantly increased interest and application in medically-related fields in the recent years. This has been especially true in complex medical situations particularly when abnormal or complicated anatomical surgical considerations or precise reconstructive procedures are contemplated. In addition, 3D bio-printing which combines cells with bio-material scaffolds offers an exciting technology with significant applications in the field of tissue engineering. The purpose of this manuscript was to review a number of studies in which 3D printing technology has been used in breast reconstructive surgical procedures, and future directions and applications of 3D bio-printing.

Breast cancer is the most common cancer diagnosed among US women and is second only to lung cancer as a cause of cancer death among women as of 2019. Because ~268,600 (almost six times than DCIS) new cases prove to be an invasive type of breast cancer (1), many women had to choose the removal of the breast, with immediate consideration for a replacement tissue. Although this was satisfactory in many patients, either saline or gel-filled breast implants (2) do carry real risks of complications such as infection, capsular contracture, implant dislocation, or deformities (3, 4). The option of autologous reconstruction can be more texturally natural aesthetically, but it requires a more complex procedure, significant time and expense, and possible muscle weakness or hernia formation at the tissue donor site (5). Tissue engineering intends to address these limitations by combining the 3D printing technology with synthetic or natural structural elements.

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Nov 23, 2022

Landmark Transplant Turns 3D Bioprinting on Its Ear

Posted by in categories: 3D printing, bioprinting, biotech/medical

A reconstructed ear made of living cells could herald a new era of 3D-printed organs.

Nov 21, 2022

A breakthrough 3D-printed material incredibly strong and ductile

Posted by in categories: 3D printing, biotech/medical, drones, nanotechnology, satellites

It’s all thanks to nanoclusters.

A new nanoscale 3D printing material developed by Stanford University engineers may provide superior structural protection for satellites, drones, and microelectronics.


A dual-phase, nanostructured high-entropy alloy that has been 3D printed by researchers from the University of Massachusetts Amherst and the Georgia Institute of Technology is stronger and more ductile than other cutting-edge additively manufactured materials. This discovery could lead to higher-performance components for use in aerospace, medicine, energy, and transportation.

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Nov 21, 2022

Researchers turn asphaltene into graphene for composites

Posted by in categories: 3D printing, energy, engineering

Asphaltenes, a byproduct of crude oil production, are a waste material with potential. Rice University scientists are determined to find it by converting the carbon-rich resource into useful graphene.

Muhammad Rahman, an assistant research professor of materials science and nanoengineering, is employing Rice’s unique flash Joule heating process to convert asphaltenes instantly into turbostratic (loosely aligned) graphene and mix it into composites for thermal, anti-corrosion and 3D-printing applications.

The process makes good use of material otherwise burned for reuse as fuel or discarded into tailing ponds and landfills. Using at least some of the world’s reserve of more than 1 trillion barrels of as a feedstock for graphene would be good for the environment as well.

Nov 18, 2022

The Future of Medicine: 3D Printers Can Already Create Human Body Parts

Posted by in categories: 3D printing, biotech/medical, food

In recent years, updates in 3D printing technologies have allowed medical researchers to print things that were not possible to make using the previous version of this technology, including food, medicine, and even body parts.

In 2018, doctors from the Ontario Veterinary College 3D printed a custom titanium plate for a dog that had lost part of its skull after cancer surgery.

Nov 18, 2022

Louisiana State University 3D prints full-body ‘human’ for radiotherapy

Posted by in categories: 3D printing, biotech/medical, engineering, food

face_with_colon_three circa 2018.


Meagan Moore, a Biological and Agricultural Engineering student from Louisiana State University (LSU) has 3D printed a full-size model of the human body for use in radiotherapy.

Such models used in radiotherapy mimic the human tissue, and in medical terms are known as imaging phantoms or phantoms. They are used in radiotherapy to estimate the amount of dose delivery and distribution. A customized phantom of a patient can make the whole process more precise.

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Nov 17, 2022

Engineers designed a new nanoscale 3D printing material that can be printed at a speed of 100 mm/s

Posted by in categories: 3D printing, drones, energy, nanotechnology, satellites

It’s all thanks to nanoclusters.

A new nanoscale 3D printing material developed by Stanford University engineers may provide superior structural protection for satellites, drones, and microelectronicsAn improved lightweight, a protective lattice that can absorb twice as much energy as previous materials of a similar density has been developed by engineers for nanoscale 3D printing.

According to the study led by Stanford University, a nanoscale 3D printing material, which creates structures that are a fraction of the width of a human hair, will enable to print of materials that are available for use, especially when printing at very small scales.

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Nov 17, 2022

3D-printing microrobots with multiple component modules inside a microfluidic chip

Posted by in categories: 3D printing, biotech/medical, chemistry, nanotechnology, robotics/AI

Scientists from the Department of Mechanical Engineering at Osaka University introduced a method for manufacturing complex microrobots driven by chemical energy using in situ integration. By 3D-printing and assembling the mechanical structures and actuators of microrobots inside a microfluidic chip, the resulting microrobots were able to perform desired functions, like moving or grasping. This work may help realize the vision of microsurgery performed by autonomous robots.

As medical technology advances, increasingly complicated surgeries that were once considered impossible have become reality. However, we are still far away from a promised future in which microrobots coursing through a patient’s body can perform procedures, such as microsurgery or cancer cell elimination.

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