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Duke Students Create Chocolate Drone #drone #droneday

Will take one dark chocolate, 85%+ cocoa, thank you! From The Chronicle:

The idea of an edible drone initially came up a year ago while Thakkar was having coffee with a friend. Whenever he had time, he said he would make it happen. Thakkar mentioned the idea in passing to his friends Lindner and Succop.

“Knowing Anuj is the kind of guy that relentlessly pursues an idea, no matter how far-fetched it seems, until it’s accomplished, I didn’t even question him,” Succop wrote.

While the three students were at Duke over the summer, they became more and more motivated to start prototyping an edible drone. They attempted with three other foods before deciding on chocolate. They explained that cheese was too ugly and oily, jell-o was too heavy and bread was too difficult to mold. However, chocolate was moldable, light and appealing.

The team initially tried to construct the drone using a 3D-printed negative mold, which involves pouring melted chocolate into the mold, Lindner said. However, they ran into issues when trying to remove the plastic mold because the chocolate kept breaking.

Instead, the team used a positive 3D-printed mold, where they poured the chocolate around the mold and let it solidify. They then removed the plastic, leaving a chocolate shell. Lindner explained that they modified a drone by removing as much of the shell as they could and replacing it with chocolate, while leaving the electronics.

Welcome to drone day on the Adafruit blog. Every Monday we deliver the latest news, products and more from the Unmanned Aerial Vehicles (UAV), quadcopter and drone communities. Drones can be used for video & photography (dronies), civil applications, policing, farming, firefighting, military and non-military security work, such as surveillance of pipelines. Previous posts can be found via the #drone tag and our drone / UAV categories.

University of Leeds’ Concept System to Use Drones and 3D Printing to Repair Pot Holes #drone #droneday

From University of Leeds on YouTube:

A system to use drones to scan and then repair pot holes in roads using a 3D printing attachment was demonstrated by a team from the University of Leeds as part of the Robots for Resilient Infrastructure Robotic Challenge Event that took place on 27 to 28 June at Weetwood Hall, Leeds.

Examining the Effectiveness of 3D Printing for Drone Construction (MALE UAVs)

Drones are becoming more and more a part of modern life, being used for everything from military applications to delivering pizza, not to mention the growing number of hobbyists using them personally. Drones have come of age, so to speak, alongside 3D printing, and therefore 3D printing is commonly used to construct drones, also known as unmanned aerial vehicles or UAVs. In a paper entitled “Implementation of FDM technology in MALE UAVs,” a group of researchers discuss the advantages of using 3D printing for drone manufacture.

MALE stands for Medium Altitude Long Endurance. According to the researchers, there are numerous advantages of using 3D printing over other methods of fabrication. Using PLA makes UAVs more eco-friendly, for one thing, and also improves their strength to weight ratio. 3D printing allows designers to densify certain areas, such as the landing gear or nose tip, that will experience greater impact, while compensating by reducing weight elsewhere. The technology also makes it easier to create an aerodynamic design, and saves time, money and effort compared to other manufacturing methods.

In the study, the researchers developed a 3D printed drone fuselage, which is described as the “backbone” of the drone. It serves as a housing for payload as well as many other components, so there are several weight, aerodynamic and structural constraints that have to be considered in its design. The length of the fuselage also affects the stability of the drone, and it is important to streamline the body so that air can flow around it in such a way as to keep the drag effects low.

Other techniques are sometimes used for manufacturing the body of the drone, such as subtractive manufacturing of Styrofoam or Balsa wood, and while they have their own advantages they also have several disadvantages: a Styrofoam sheet is non-aerodynamic, while constructing a drone out of Balsa wood is “cumbersome as well as time-consuming.” In contrast, 3D printing a fuselage is easy and allows for a great deal of design freedom.

The researchers 3D printed several iterations of the drone before arriving at the final version, which was “aerodynamically stable as well as mechanically robust.” Stress analysis was performed using FEA simulations through an ANSYS tool. They analyzed both nose impact and belly impact.

In the nose impact analysis, the maximum force applied was 25 N and the maximum deformation was 1.09 mm.

Nose impact analysis

“The analysis is oriented in such a manner that the wing berth is taken as fixed support thereas, the motor mount is assumed to have a ramped up force impact on it,” the researchers state. “The feature shows that the maximum deformation would occur at the joint of two different parts which were manufactured separately and then joined together using cyanoacrylate.”

For the belly impact analysis, the maximum force applied was 25 N and the maximum deformation was 1.1435 mm.

Belly impact analysis

“As the fuselage is deemed to land on its belly during the landing approach,” the researchers continue. “Moreover, in any case the first impact would be on the bottom surface only. Considering the purview of the given problem statement, the analysis is shown above where the impacts on grilled bottom and wall surfaces have been shown.”

The researchers conclude that FDM 3D printing technology is an effective way of constructing drones, with excellent build precision and high strength to weight ratio. It allows varied material composition on different parts of the drone, and is overall simple, cost-effective and time-saving.

Authors of the paper include Ankur Dwivedi, Darshit Desai and Deepesh Agarwal.

Discuss this and other 3D printing topics at 3DPrintBoard.com or share your thoughts below.

Adafruit Weekly Editorial Round-Up: August 20th – August 27th

Iadafruit welcome newsletter footer 1 1

ADAFRUIT WEEKLY EDITORIAL ROUND-UP

We’ve got so much happening here at Adafruit that it’s not always easy to keep up! Don’t fret, we’ve got you covered. Each week we’ll be posting a handy round-up of what we’ve been up to, ranging from learn guides to blog articles, videos, and more.

BLOG

We released CircuitPython 3.0.1!

More BLOG:

Keeping with tradition, we covered quite a bit this past week. Here’s a short list of highlights:

Check out the newest post from Adafruit’s music team – MusicMakers017: The Ophelias!
Dano posted about a day in the life of the stencil machine.
Whoa! It’s been a year since the epic 2017 solar eclipse?
We covered some cool happenings over at the NYPL main branch.

LEARN

Adafruit Mini TFT with Joystick Featherwing

Add a dazzling color display to your Feather project with this Adafruit Mini Color TFT with Joystick FeatherWing.

More LEARN

Browse all that’s new in the Adafruit Learning System here!

3D Printed Drone Saves Thousands of Crops per Year

The corn borer is a pest that attacks maize stalks, causing the loss of thousands of crops every year. Rather than drenching said crops with chemicals, a company called Soleon is taking a natural approach – the SoleonAgro drone, which distributes trichogramma wasp eggs. The trichogramma wasp eats corn borers, offering an eco-friendly pest control alternative. The SoleonAgro drone has specialized arms that can distribute the eggs in three different directions at once, spreading them evenly and quickly across fields.

To build the drone’s unique design, Soleon turned to 3D printing by way of Materialise, which had been working with the company for years to create its wide range of drones for aerial photography, thermal mapping, civil defense and more. Each drone has a different design according to its purpose: a photography drone, for example, would need camera mounting points while a pest control drone like the SoleonAgro requires arms that move in different directions to distribute the eggs efficiently and evenly. 3D printing allows Soleon to rapidly prototype these drones, quickly moving through different iterations until the final product is achieved.

Using 3D printing also results in a much more lightweight drone than would be possible with other technologies.

“When we came to Materialise for end-use 3D-printed parts, our key requirement was that the parts needed to be lightweight (in order to maximize battery power),” said Soleon Founder Michael Überbacher. “The design of the drone body was very complex, since we customized it completely for the purpose of an efficient distribution system. We had already worked with Materialise for years for rapid prototyping on various projects, and had arrived at a design that we were happy with for the SoleonAgro.”

Because of the complexity of the design, Selective Laser Sintering (SLS) was chosen to 3D print the SoleonAgro. It was 3D printed mostly in PA 12, a lightweight, durable material, which would allow for the weight reduction needed as well as the strength and toughness required for the drone’s operation. PA-GF, a polyamide filled with glass particles, was used for parts closer to the drone’s motor, as the material has higher rigidity and is less vulnerable to vibration.

“The big advantage of 3D Printing is that we can very quickly create complex systems, even in small quantities,” said Überbacher. “Normally the parts are printed and sent within one week. As a small company, this offers us the opportunity to react very quickly to the changes and wishes of our customers. Working with Materialise has been great, due to their wide range of technologies and large machine capacity, as well as their in-house design and engineering support. With this, we’ve managed to make the SoleonAgro the most cost-efficient and best performant solution on the market.”

Soleon is based in Italy and has been in business since 2009. It’s one of a growing number of companies that have been employing 3D printing in the manufacture of drones. Because drones tend to have complex designs, and because they need to be lightweight, 3D printing is the technology that makes the most sense for these machines. Thanks to the SoleonAgro’s unique 3D printed design, Soleon can save thousands of maize crops – and be faster than its competitors in doing so.

Speaking of agricultural drones, check out this project in progress as well.

Discuss this and other 3D printing topics at 3DPrintBoard.com or share your thoughts below.

[Source: Materialise/Images: Soleon]

Sounds odd? Your 3D printer could be hacked

New research from Ben-Gurion University of the Negev in Israel, that previously showed how easy it is to hack 3D printed drones, is proposing the use of “audio fingerprints” to help 3D printing avoid cyber-attacks. The team’s research is valuable to concerns surrounding the security of 3D printing – a discussion that has tremendous value in industrial […]

#3DPrinted Quadcopter, JumpDrive #drone #droneday

From ebrithiljonas on Thingiverse:

Quadcopter designed around the Following components:

Emax MT2204 Motors

TopFuel LiPo 20C-ECO-X 2400mAh

Naze32 Flight Controller

Goal:

The goal of this project is to design a completely 3D-printed quadcopter with replaceable arms. Also a frame which isn’t complete open like most of the small race drones.