Manufactura Aditiva de UAVs: Cómo aumentar la resistencia de las piezas mediante sandwichs de ABS y CFRP

Si existe una tendencia invariable en todo el proceso de diseño aeronáutico, ésta es mejorar el rendimiento de los aparatos haciéndolos más ligeros pero aumentando su resistencia mecánica al mismo tiempo.

Esa "cuadratura del círculo" puede lograrse mediante el uso de materiales compuestos CFRP. Los compuestos CFRP (Polimero Reforzado con Fibra de Carbono) son materiales livianos pero fuertes que suelen utilizarse en las aplicaciones más exigentes debido a sus excelentes propiedades mecánicas.

Un equipo colaborador de investigadores de la Universidad de Kingston, la Universidad de Liverpool y la Universidad de Ciencia y Tecnología de Khalifa han publicado un estudio titulado  “Additive Manufactured Sandwich Composite/ABS Parts for Unmanned Aerial Vehicle Applications" que analiza el uso de materiales compuestos CFRP en estructuras de sándwich, utilizando núcleos fabricados mediante Impresión 3D basada en tecnología FDM.

Las estructuras de sándwich ofrecen una resistencia y rigidez específicas superiores a las que ofrecen los compuestos monolíticos, y se fabrican agregando dos capas de piel delgada a un núcleo grueso y liviano. El material del núcleo es generalmente más barato, y tiene menor resistencia y densidad en comparación con las capas de la piel.

En cuanto a la tecnología FDM, si bien las piezas creadas mediante esta tecnología presentan con frecuencia una mayor anisotropía que las piezas fabricadas mediante otras tecnologías tales como SLS, SLM o EBM, resulta sin embargo la tecnología más equilibrada para muchas aplicaciones y más concretamente para fabricación de piezas de uso final en vehículos aéreos no tripulados (UAV, por sus siglas en inglés) donde se requiere peso ligero, resistencia mecánica, rigidez, economía de costes, versatilidad de materiales, economía de tiempo y agilidad de fabricación.

En este documento se propone un proceso de fabricación de la estructura del UAV utilizando para ello sandwichs de núcleos de ABS fabricados mediante FDM y recubiertos de CFRP,  al objeto de mejorar el módulo de elasticidad y la resistencia mecánica del ABS impreso.

Particularmente en el caso de los UAVs, las estructuras compuestas en sándwich presentan una doble ventaja: Conservan las ventajas de la tecnología FDM a la hora de fabricar geometrías complejas, y solo requieren simples pasos de post-procesamiento para mejorar las propiedades mecánicas de la pieza final.

Para la realización del estudio se utilizó una ANN (Red Neuronal Artificial) a fin de de investigar la influencia de la densidad del núcleo y el número de capas de CFRP en las propiedades mecánicas de la pieza final. El resultado mostró  una mejora de la resistencia específica y el módulo de elasticidad al aumentar el número de CFRP: La resistencia específica de las muestras mejoró de 20 a 145 KN*m / kg, mientras que el módulo de Young aumentó de 0,63 a 10,1 GPa al laminar las muestras con capas de CFRP. 

UAV esférico impreso en 3D

Un grupo de aficionados a los UAVs y a la Impresión 3D han combinado sus conocimientos para diseñar y construir un UAV mediante Impresión 3D.

El UAV en cuestión presenta forma esférica, pues está basado en películas de ciencia ficción, del tipo Star Wars y similares.

Muchos de los componentes de este UAV esférico fueron impresos en ABS, y entre ellos se incluyen el conducto de admisión de aire, el separador de flujo de aire y los conductos de salida. 

Los ficheros STL se encuentran disponibles de manera gratuita a través de la página Instructables, así como tambien una lista de materiales adicionales e instrucciones de montaje.

Vortex: Impreso en 3D

Durante la pasada edición de la feria FlySafe 2014 celebrada en Las Vegas, la compañía Atlanta Hobby presentó un avanzado hexacóptero: El Vortex. La noticia carecería de interés de no ser porque se trataba de un hexacóptero fabricado mediante fabricación digital directa en un sistema de producción 3D.

En esa ocasión, la compañía anunció que fabricaría un modelo especial para un cliente muy especial: Roswell Flight Test Crew. A petición del cliente, el UAV estaría impreso utilizando su combinación de colores favorita: Negro y amarillo. Pues bien: El pasado mes de enero Atlanta Hobby ha cumplido su promesa haciendo entrega pública del UAV, que incorpora un controlador de vuelo DJI NAZA2, un sistema de propulsión DJI E600, y una batería compuesta por seis células LiPo de 15.000 MAH, que le otorgan una autonomía de vuelo en torno a 15 minutos.

David del Fresno

 

Orientación y Asesoría en Impresión 3D y Manufactura Aditiva

http://daviddft.wix.com/david-del-fresno

AMRC's 3D Printed UAV

Let us see in this post a 3D printed UAV designed, manufactured and flight tested by a team of engineers from Advanced Manufacturing Research Centre (AMRC).

https://www.youtube.com/watch?v=v4lrtOc736M

The UAV airframe was constructed entirely of ABS plastic, using a Stratasys Fortus 900mc 3D Production System. The complete aircraft has a wingspan of 1.5 m, weights under 2 kg, and can be easily split into half for easier transportation.

3D Printed ABS for Mould Making

An introduction and overview for a series of videos showing how to use 3D printing for mould making.

The series will cover inspecting, repairing, joining, plastic welding and finishing FFF printed ABS parts for mould making.

The series would also be of interest for anyone interested in post print finishing.

Granada (Spain): UAV Scales New Heights as 3D Architecture Tool

Engineers from Spain's University of Granada are developing a remotely-operated Unmanned Aerial Vehicle capable of maneuvering in and around buildings to construct 3D models in unprecedented detail.

http://archive.wausaudailyherald.com/VideoNetwork/1786859817001/UAV-Scales-New-Heights-as-3D-Architecture-Tool

Textron, Airbus To Bid on Expected French UAV Tender

Airbus Defence & Space has teamed with Textron to prepare a joint bid for an expected French tender for a tactical UAV, a competition likely to attract a lively clutch of international offers, said Senior Vice President Jens Nielsen. (Read more) 

SelectTech Geospatial to lead UAV industry in Clark County

SelectTech Geospatial is pushing ahead with their attempts to make Clark County a leader in the emerging commercial drone industry, despite losing out on a bid to be one of six national test sites. That includes launching the state’s first precision agriculture program at Clark State Community College and building $500,000 hangars at the Springfield-Beckley Municipal Airport to house unmanned aerial vehicles. "These and some other assets put Clark County in a good position to attract businesses in manufacturing and research, even without the Federal Aviation Administration test site designation" said Frank Beafore, executive director of SelectTech Geospatial.

(Read more)

Argentina: UAVs a la vista

El diputado nacional Agustín Portela (UCR Corrientes), ha presentado un proyecto de Ley para modificar el artículo 36 de la Ley del Código Aeronáutico Nº 17.285 y sus modificatorias, a fin de incluir una regulación específica para UAVs. Portela ha explicado que lo que se pretende es adecuar la legislación vigente debido al aumento del uso de estos aparatos en la Argentina, tanto en su uso civil como estatal.

Revolutionary “Smart Wing” Created for UAV Model Demonstrates Groundbreaking Technology

Stratasys and Optomec Inc. announced that the companies successfully completed a joint development project to merge 3D printing and printed electronics to create the world’s first fully printed electro-mechanical structure.

The development of a “smart wing” for an Unmanned Aerial Vehicle (UAV) model with functional electronics is a revolutionary event that has the potential to change product development in industries including medical device, consumer electronics, automotive and aerospace. An Optomec Aerosol Jet system was used to print a conformal sensor, antenna and circuitry directly onto the wing of a UAV model. The wing itself was 3D printed with the Stratasys Fused Deposition Modeling (FDM) process. The electrical and sensor designs were provided by Aurora Flight Sciences, a supplier of UAVs. The combination of FDM 3D printing and printed electronics technologies can provide benefits over traditional prototyping, manufacturing and field repair processes. Performance and functionality of products can be improved in two ways: 3D printers enable lighter weight mechanical structures; and conformal electronics printed directly onto the structure frees up space for additional payload. In turn, the process has a positive impact on the environment by using fewer materials. Manufacturers can implement this technology in a multitude of applications, not just in aerospace. This technology can benefit numerous industries by allowing thinner, lighter, fully functional structures that cost less to manufacture.

EADS subsidiary flies to Stratasys

 

Stratasys Ltd. (NASDAQ: SSYS), a leading manufacturer of 3D printers and production systems for prototyping and manufacturing, has announced that remote control systems manufacturer, Survey Copter, is successfully using its 3D printing technology to produce prototype and short-run component parts for mini-unmanned aerial vehicle (UAV) systems, also known as drones.

 

 

France-based Survey Copter, a subsidiary of the European Aeronautic Defence and Space Company N.V. (EADS), specializes in the design, production and integration of complete remote systems for surveillance photography and video service applications for UAVs and other airborne craft, as well as for sea and overland vehicles.

 

 

Having previously outsourced its prototyping requirements, Survey Copter turned to Stratasys for an in-house solution that could reduce costs and ensure greater efficiency and autonomy, granting the company the means to rapidly produce very small quantities within 24 hours. Via Stratasys' French distributor, CADvision, Survey Copter subsequently installed two 3D printing solutions - a Stratasys Dimension Elite 3D Printer and Stratasys Fortus 400mc 3D Production System, which offers nine production-grade engineering thermoplastics using Stratasys' patented Fused Deposition Modeling (FDM) technology.

 

"Effectively meeting our 3D printing needs can only be achieved via machines that are capable of producing quality parts with high reliability," explains Jean Marc Masenelli, managing director, Survey Copter. "Stratasys' reputation for delivering 3D printers that meet these criteria head-on made them the logical company to partner with."

 

 

 

 

 

Spearheading Survey Copter's prototyping and short-run manufacturing activities, the Stratasys Fortus 400mc and Dimension Elite 3D Printers are deployed in the production of component parts for the company's mini-UAV systems, including both helicopter and fixed-wing variants weighing up to 30kg and 10kg respectively. Ranging from a few millimetres up to parts measuring 40cm x 10cm, these components comprise mechanical structures for optical turrets, structural elements of aircraft, battery compartment housing, supporting structure, as well as scale models.

 

 

High Performance Materials Engineered for Aerospace

 

For Masenelli, the ability to utilise different materials according to specific application needs offers key advantages for producing durable 3D printed parts. Such materials include FDM thermoplastics polycarbonate, ABS and high performance ULTEM 9085 which boasts superior strength and lightweight properties, as well as other desirable characteristics including FST (flame, smoke and toxicity) rating. This safety standard, particularly valued within the aerospace and transportation industries, ensures a material won't promote a fire, release harmful smoke, or emit toxic fumes.

 

"That we are able to print production-grade materials such as high-performance FDM thermoplastics like ULTEM, which is qualified for aerospace applications, is a definite plus for our operations," he explains.

 

"The Stratasys 3D Printer can produce parts with complex shapes - for us a highly sought after requirement and a principle differentiator that sets Stratasys' proposition apart from that of other providers," he adds. "This specific capability enables us to produce parts of wide-ranging dimensions and hollow forms, as well as full honeycomb structures."

 

 

Featuring two material bays for maximum uninterrupted production, the Stratasys Fortus 400mc 3D Production System produces accurate, durable, repeatable 3D parts with superior throughput. It is available in two configurations: the basic system which builds parts as large as 355 x 254 x 254 mm, and an optionally upgraded system which builds parts as large as 406 x 355 x 406 mm. With four layer thicknesses to choose from, users can fine-tune their desired balance between FDM's finest possible feature detail and the fastest build.

 

 

The Stratasys Dimension Elite 3D Printer features the finest resolution of any Stratasys Design Series Performance 3D Printers and produces nine colors of real ABSplus thermoplastic. When the finest dimension resolution of 0.178 mm is not required, the Dimension Elite allows users to accelerate printing with a layer thickness of 0.33 mm.

 

Stratasys/CADvision will be exhibiting at the forthcoming Paris Air Show (17^th - 23^rd June, Paris, France) on stand 3-E54.