Hyperelastic Bone
In an enormous jump for therapeutic science and 3d printing,
specialists at an Illinois college as of late uncovered another composite bone
material they call 'hyperelastic bone'. 3D printers rapidly redo the material,
contingent upon the particular needs of every patient. This conceivably permits
specialists to embed it on request to mend harmed bones in the body.
Moreover, the composite bioengineered material likewise
appears to advance the development of bones in the region of the structure.
This could mean faster mending circumstances for an extensive variety of
skeletal wounds.
Embed Rejection
A gigantic consider the buildup around this material is that
it gives promising outcomes as far as embed dismissal, which is an immense
issue with current innovation. Advanced bone unions use materials, for example,
collagen and earthenware production. The body frequently rejects these inserts,
bringing about various disappointing symptoms. These symptoms extend from agony
to disease to embed dislodging.
The guinea pigs that researchers tried the new hyperelastic
material on didn't give any hint at all of dismissing the inserts.
Organization
Hyperelastic bone is produced using an artistic powder type
of hydroxyapatite, a mineral found in bones, and a polymer known as
polycaprolactone. This polymer is prominent for its biomedical applications
mainly on account of its flexibility. The material is permeable, implying that
a life form's veins can rapidly invade it. The fast invasion by the body
permits it to join the embed without setting off an invulnerable reaction.
Quality
Clearly, it's imperative not to escape seeing as
hyperelastic bone innovation is in its earliest stages. However, it offers a
suitable approach to enhance current inserts. The key point is that this
biomaterial has the preferred standpoint insignificant odds of embed dismissal.
It is likewise to a great degree solid. The group of researchers 3d printed a
segment of human femur, and the material upheld stacks up to 150 pounds before
clasping.
It's too soon to make any estimation about the potential
cost of this innovation. The advantages are clear. Human trials have an
essential part to play in checking its adequacy, however.
In the event that hyperelastic bone satisfies its guarantee
and the general population in control figure out how to keep cost to a base,
this speaks to a huge medicinal leap forward. Expect to hear more about
hyperelastic bone over the coming a few years.
MakerBot, the New York-based organization, is outstanding
both for its creation of desktop 3D printers, and the debate it has brought on
as of late. In 2014, the firm was blamed for taking and protecting a group
sourced plan. Online people group, for example, Reddit participated in the
backfire, and the organization's stock plunged. MaketBot laid off 400 workers,
and they haven't discharged much in the most recent two years.
Replicator+ and Replicator Mini 3d Printers
The Replicator line of customer 3d printers is the most well
known item that MakerBot offers. The organization declared yesterday that the
6th era; the Replicator + is currently marked down. MakerBot offers two forms
of its new gadgets — the Replicator+ and Replicator Mini+.
The printers accompany an entire host of changes in key
zones, for example, speed, fabricate volume, and dependability.
The Replicator + prints 30 percent quicker than past models,
with the ability to print at 25 percent bigger form volume. There's likewise an
extruder movement framework that enhances the exactness of every print. As per
the official statement, the gadgets experienced broad quality control testing —
more than 380,000 hours indeed.
Makerbot Replicator +
New Marketing Focus
As per MakerBot, the thought here is to create superb 3d
printing answers for experts and instructors. The organization already
advertised its items at DIY 3d printing fans, so the move to more expert review
printers speaks to another promoting center. The Replicator+ is evidently
intended for experts, while the Mini+ is gone for instructors.
The proprietors of MakerBot unmistakably need to modify its
notoriety after the inconveniences of 2014.
Fiber
An energizing new component of the Replicator+ is the new
"Extreme PLA" fiber that it uses. This new material gives more
adaptability than standard PLA. Intense PLA lamentably just arrives in a dull
dim shading, rendering it pointless for building vivid plans. The possibility
of the material is to give a superior stage to testing mechanical models.
Programming
Moreover, the new line of printers additionally accompany a
helpful and fresh out of the box new programming — MakerBot Print. This program
makes 3D printing more open. It underpins various distinctive CAD document
organizations, and it consequently positions objects for most extreme printing
effectiveness. Even better, the program can create a reproduced video of your
arranged print. This clever component helps you spot potential issues with the
print and maintain a strategic distance from squandered fiber.
There is additionally a MakerBot Mobile application
accessible that supplements the fundamental programming and permits various
clients to screen every printer in a hurry.
It's great to see MakerBot retreating to its foundations and
gaining practical experience in what the organization maintains to be great at
— delivering superb 3d printers.
Advancement
A noteworthy advancement happened as of late in the realm of
3d-printing, as Carbon, a San Fransisco based start-up, raised a further $81
million in speculations. The three organizations backing Carbon are GE, BMW,
and Nikon. This speaks to a noteworthy overthrow for the firm and it could
permit them to propel added substance fabricating innovation into full-scale
creation.
CARBON M1 3D PRINTER
Carbon
Carbon has collected a notoriety for being an organization
to watch through the span of 2016. This great notoriety originates from
Carbon's utilization of an inventive fluid interface generation innovation.
Albeit existing added substance fabricating innovation is compelling as of now,
Carbon's one of a kind procedure produces parts much quicker than with
customary means.
The firm now has a great $220 million in absolute financing
available to its. Therefore, they'll have the capacity to ceaselessly refine
and enhance their innovation and further enhance business productivity. Carbon
propelled its initial 3D-printer in April of this current year, and we can
without a doubt expect significantly more from them now that their business has
been upheld.
The abroad ramifications of this news additionally can't be
denied. Each of the three organizations are multi-national partnerships, which
will spread the innovation to unique areas around the globe. Worldwide
adjustment of 3D-printing is an energizing thought.
Certainty
Aside from this speculation being valuable to Carbon from a
fiscal point of view, the 3d-printing industry all in all will probably observe
gigantic advantages. GE, BMW, and Nikon are mammoths of assembling. Financial
specialist certainty is basic all together for the business to take off. On the
off chance that the innovation has the sponsorship of such enormous players,
different organizations will in all likelihood take action accordingly.
The 3D-printing industry has been anticipating a defining
moment like this with energetic foresight. Little scale assembling of
3D-printed segments is inexhaustible, yet the change to a bigger size of
generation still anticipates the business.
With vital organizations, for example, GE wagering on
3D-printing as a usable and helpful innovation, this must mean great things for
what's to come. To stress this point, BMW has as of now created more than
10,000 parts utilizing Carbon's remarkable innovation.
Subsequently of this news, a brighter future is upcoming for
3D-printing innovation.
3D Design
Tenderfoots needing to make a not too bad 3d plan for printing purposes regularly whine that current 3d printing programming is excessively unpredictable. That is going to change, however. ScratchyCAD is another product that permits clients to make complex 3D questions in a square based programming dialect. This improvement mechanizes complex outline errands.
The many-sided quality of 3d demonstrating is something that tenderfoots regularly battle with and gripe about. Restricting hindrances to passage for planning 3d-printed items is of fundamental significance. Subsequently, an awesome path for the innovation to understand its potential is to have however many originators as could reasonably be expected. The more individuals who can get to holds with the plan procedure, the more possibility there is for further advancement that improves the look and feel of 3d-printed objects. As more individuals figured out how to fabricate autos, they showed signs of improvement. Upgrades were made in execution and feel of completed items. You can expect the same for added substance fabricating.
scratchy card 3d plan
The Simplicity of ScratchyCAD
The magnificence of ScratchyCAD is in its straightforwardness. The product blends complex PC programming components and CAD in an uncomplicated simplified style interface. This new programming conveys a parametric way to deal with displaying objects for 3d printing. Interestingly, this is against depending on information of complex programming code for 3d plan.
The product dispatches with the assistance of Kickstarter, and the designers guaranteed to incorporate courses that show clients about the different utilizations of the product, which are not constrained to 3d printing. Moreover, with ScratchyCAD, clients can produce movements for video games, and make intelligent 3D sites for use with virtual reality headsets.
scratchy card CAD Program 3d plan
Openness
As indicated by Juan Carlos Orozco, lead engineer of ScratchyCAD, "ScratchyCAD is an extraordinary instrument for learning complex ideas like algorithmic and parametric outlined in an easy to utilize, novice inviting interface". At the end of the day, ScratchCAD makes 3d outline more open. Therefore, we can expect significantly more individuals to attempt their hand at making objects for 3d printing, which must be something to be thankful for.
September 2, 2016
Thermwood is a notable Indiana-based organization that offers superior CNC switches. In the last couple of days, the organization declared the arrival of an energizing new line of LSAM (Large Scale Additive Manufacturing) frameworks. The arrangement is to utilize these immense 3D printers to create thermoplastic composite parts, with included support. The gadgets utilize CNC innovation, which is something that Thermwood obviously exceeds expectations at as of now.
Thermwood Development Program
The new 3D printers are the aftereffect of a broad advancement program declared by Thermwood as ahead of schedule as February 2016. The new machine line, purported LSAM, uses a great two-stage close net-shape generation procedure to assemble sizeable thermoplastic composite parts.
Creation Process
The creation procedure includes firstly 3D printing composite parts layer by layer to barely bigger than their arranged last size. Furthermore, they then utilize one of their elite CNC switches to trim the parts to an exact last size and shape.
Thermwood 3D Printer Part
Target Market
The organization highlights its objective market for the LSAM gadgets as an assortment of enterprises including aviation, car, sailing, foundry and thermoforming. The composite parts have an extensive variety of employments, including the generation of tooling, molds, installations and a great deal more. Besides, the upsides of this sort of vast scale assembling are justified, despite all the trouble general. In outline, bring down expenses and a shorter form cycle are the two key advantages.
Gigantic 3D Printers
These LSAM gadgets are gigantic. Once more, to stress the size, the machines include an overhead gantry, with a ten-foot wide, five-foot high work envelope. The length changes between 10-feet and an amazing 100-feet. The machine contains all the obliged capacities to make composite parts — both the print gantry and the trim gantry, with its CNC switch.
Thermwood LSAM 3d printer
The PH15 print head prints at rates up to 150 lbs/hr. Thermwood trusts this is the most astounding yield rate accessible today for any expansive scale added substance fabricating machine. The LSAM printer comes furnished with Siemens Intelligent Servo Drives for trimming and printing.
Thermwood LSAM Print Head
New Revolution
The Thermwood group trust they are on the cusp of the following assembling insurgency with this new printer. As indicated by CEO, Ken Susnjara, "We are toward the start of what has all the earmarks of being an upset in assembling and we anticipate the new difficulties and mind blowing potential outcomes that this kind of transformational change brings".
One thing is without a doubt — this is an energizing improvement for the expansive scale utilization of added substance producing. It'll be captivating to perceive how the LSAM 3D printers change the way organizations deliver composite parts.
Energizing news developed inside the most recent few days in the realm of 3D printing. Researchers in Cambridge, Massachusetts figured out how to effectively 3D-print structures that "recollect" their shapes. The declaration was put forth in an expression discharged by MIT.
Adaptable
The rise of this new innovation created a genuine buzz among added substance fabricating devotees. Researchers could twist and curve the printed polymer rusty, and they watched that the structures came back to their unique structures when warmed to a specific ideal temperature. Basically, this adaptability makes the material perfect for various promising new applications in the 3D printing space.
A shape-memory Eiffel tower was 3-D printed utilizing projection microstereolithography. It is indicated recuperating from being bowed, subsequent to toughening on a warmed Singapore dollar coin. Photograph politeness of Qi (Kevin) Ge
A shape-memory Eiffel tower was 3-D printed utilizing projection microstereolithography. It is demonstrated recouping from being twisted, subsequent to toughening on a warmed Singapore dollar coin. – Photo kindness of Qi (Kevin) Ge
Applications
3D printing is still to some degree a sprouting innovation, and we are just start to see it turning out to be more across the board. There are an energizing arrangement of conceivable applications for shape-moved 3D structures. Here are two of the most encouraging:
Temperature-subordinate Drug Release. A standout amongst the most reassuring future employments of this sort of innovation is the proposed capacity to form prescription that discharges into the circulation system at the main indication of a contamination, which is normally a sharp ascent in body temperature. Tropical diseases, for example, intestinal sickness and dengue fever wreak devastation on the medicinal services bureaus of many creating countries every year. The capacity to stop these ailments at the principal indication of a disease would profit these nations tremendously and conceivably spare a great many lives around the world.
More effective sun oriented boards. Another recommended utilization of adaptable 3D polymers is in building better sun oriented boards. Actuators worked with this kind of innovation could turn sun powered boards toward the sun consequently because of warmth. Sun powered batteries regularly warm up to outrageous temperatures. As indicated by MIT researchers, modifying the edge of slant with pivots would help with this issue and guarantee better productivity from sunlight based boards.
This most recent mechanical improvement is quite recently in its early stages. Be that as it may, the two applications laid out here as of now show a considerable measure of guarantee for shape-moving 3D structures. Hope to hear more news about this genuine soon.
Tenderfoots needing to make a not too bad 3d plan for printing purposes regularly whine that current 3d printing programming is excessively unpredictable. That is going to change, however. ScratchyCAD is another product that permits clients to make complex 3D questions in a square based programming dialect. This improvement mechanizes complex outline errands.
The many-sided quality of 3d demonstrating is something that tenderfoots regularly battle with and gripe about. Restricting hindrances to passage for planning 3d-printed items is of fundamental significance. Subsequently, an awesome path for the innovation to understand its potential is to have however many originators as could reasonably be expected. The more individuals who can get to holds with the plan procedure, the more possibility there is for further advancement that improves the look and feel of 3d-printed objects. As more individuals figured out how to fabricate autos, they showed signs of improvement. Upgrades were made in execution and feel of completed items. You can expect the same for added substance fabricating.
scratchy card 3d plan
The Simplicity of ScratchyCAD
The magnificence of ScratchyCAD is in its straightforwardness. The product blends complex PC programming components and CAD in an uncomplicated simplified style interface. This new programming conveys a parametric way to deal with displaying objects for 3d printing. Interestingly, this is against depending on information of complex programming code for 3d plan.
The product dispatches with the assistance of Kickstarter, and the designers guaranteed to incorporate courses that show clients about the different utilizations of the product, which are not constrained to 3d printing. Moreover, with ScratchyCAD, clients can produce movements for video games, and make intelligent 3D sites for use with virtual reality headsets.
scratchy card CAD Program 3d plan
Openness
As indicated by Juan Carlos Orozco, lead engineer of ScratchyCAD, "ScratchyCAD is an extraordinary instrument for learning complex ideas like algorithmic and parametric outlined in an easy to utilize, novice inviting interface". At the end of the day, ScratchCAD makes 3d outline more open. Therefore, we can expect significantly more individuals to attempt their hand at making objects for 3d printing, which must be something to be thankful for.
September 2, 2016
Thermwood is a notable Indiana-based organization that offers superior CNC switches. In the last couple of days, the organization declared the arrival of an energizing new line of LSAM (Large Scale Additive Manufacturing) frameworks. The arrangement is to utilize these immense 3D printers to create thermoplastic composite parts, with included support. The gadgets utilize CNC innovation, which is something that Thermwood obviously exceeds expectations at as of now.
Thermwood Development Program
The new 3D printers are the aftereffect of a broad advancement program declared by Thermwood as ahead of schedule as February 2016. The new machine line, purported LSAM, uses a great two-stage close net-shape generation procedure to assemble sizeable thermoplastic composite parts.
Creation Process
The creation procedure includes firstly 3D printing composite parts layer by layer to barely bigger than their arranged last size. Furthermore, they then utilize one of their elite CNC switches to trim the parts to an exact last size and shape.
Thermwood 3D Printer Part
Target Market
The organization highlights its objective market for the LSAM gadgets as an assortment of enterprises including aviation, car, sailing, foundry and thermoforming. The composite parts have an extensive variety of employments, including the generation of tooling, molds, installations and a great deal more. Besides, the upsides of this sort of vast scale assembling are justified, despite all the trouble general. In outline, bring down expenses and a shorter form cycle are the two key advantages.
Gigantic 3D Printers
These LSAM gadgets are gigantic. Once more, to stress the size, the machines include an overhead gantry, with a ten-foot wide, five-foot high work envelope. The length changes between 10-feet and an amazing 100-feet. The machine contains all the obliged capacities to make composite parts — both the print gantry and the trim gantry, with its CNC switch.
Thermwood LSAM 3d printer
The PH15 print head prints at rates up to 150 lbs/hr. Thermwood trusts this is the most astounding yield rate accessible today for any expansive scale added substance fabricating machine. The LSAM printer comes furnished with Siemens Intelligent Servo Drives for trimming and printing.
Thermwood LSAM Print Head
New Revolution
The Thermwood group trust they are on the cusp of the following assembling insurgency with this new printer. As indicated by CEO, Ken Susnjara, "We are toward the start of what has all the earmarks of being an upset in assembling and we anticipate the new difficulties and mind blowing potential outcomes that this kind of transformational change brings".
One thing is without a doubt — this is an energizing improvement for the expansive scale utilization of added substance producing. It'll be captivating to perceive how the LSAM 3D printers change the way organizations deliver composite parts.
Energizing news developed inside the most recent few days in the realm of 3D printing. Researchers in Cambridge, Massachusetts figured out how to effectively 3D-print structures that "recollect" their shapes. The declaration was put forth in an expression discharged by MIT.
Adaptable
The rise of this new innovation created a genuine buzz among added substance fabricating devotees. Researchers could twist and curve the printed polymer rusty, and they watched that the structures came back to their unique structures when warmed to a specific ideal temperature. Basically, this adaptability makes the material perfect for various promising new applications in the 3D printing space.
A shape-memory Eiffel tower was 3-D printed utilizing projection microstereolithography. It is indicated recuperating from being bowed, subsequent to toughening on a warmed Singapore dollar coin. Photograph politeness of Qi (Kevin) Ge
A shape-memory Eiffel tower was 3-D printed utilizing projection microstereolithography. It is demonstrated recouping from being twisted, subsequent to toughening on a warmed Singapore dollar coin. – Photo kindness of Qi (Kevin) Ge
Applications
3D printing is still to some degree a sprouting innovation, and we are just start to see it turning out to be more across the board. There are an energizing arrangement of conceivable applications for shape-moved 3D structures. Here are two of the most encouraging:
Temperature-subordinate Drug Release. A standout amongst the most reassuring future employments of this sort of innovation is the proposed capacity to form prescription that discharges into the circulation system at the main indication of a contamination, which is normally a sharp ascent in body temperature. Tropical diseases, for example, intestinal sickness and dengue fever wreak devastation on the medicinal services bureaus of many creating countries every year. The capacity to stop these ailments at the principal indication of a disease would profit these nations tremendously and conceivably spare a great many lives around the world.
More effective sun oriented boards. Another recommended utilization of adaptable 3D polymers is in building better sun oriented boards. Actuators worked with this kind of innovation could turn sun powered boards toward the sun consequently because of warmth. Sun powered batteries regularly warm up to outrageous temperatures. As indicated by MIT researchers, modifying the edge of slant with pivots would help with this issue and guarantee better productivity from sunlight based boards.
This most recent mechanical improvement is quite recently in its early stages. Be that as it may, the two applications laid out here as of now show a considerable measure of guarantee for shape-moving 3D structures. Hope to hear more news about this genuine soon.
August 27, 2016
3D printing is being used by most industrial designers nowadays, but how, when, and why are they using it? If you’re looking at using 3D printing within a project, or simply want to see what users of 3D technology really think about it, a new report offers insights into what designers believe are the biggest benefits and drawbacks of additive manufacturing.
“Models for Success:When, How and Why Designers are Using 3D Printing Today” contains insights derived from an international group of 49 designers, and includes several in-depth case studies that show how designers used different 3D printing technologies to speed up and improve their prototyping work. The results of the report were recently presented at the annual conference of the Industrial Designers Society of America in Detroit, Michigan.
The report, created by commercial 3D printing marketplace Made for Me, contains insights such as:
More than half of designers use 3D printing in most of their projects
Approximately 2/3 of designers have an in-house 3D printer, but 63% still outsource some prints
Which desktop and commercial 3D printers are most popular with designers, and how they find outsourced 3D print services
According to Made for Me CEO James Antifaev, “the industrial design customers we work with regularly tell us that they are interested in learning about how their peers are using 3D printing, since the rapid pace of change in this industry means that best practices are continually being developed. Our goal with this survey and report was to create something that serves the design community by sharing the stories of designers, rather than pushing specific technologies or vendors. We think this represents one of the best snapshots available today of how professional designers are using additive technologies.”
As one of the most active user communities of 3D printing, industrial designers have lessons to share with anyone who is using the technology today. The designers who contributed to the report include a range of large and small organizations around the globe, with most respondents being intermediate or senior designers in the United States.
Download the 25-page report for free at: https://madefor.me/design-and-3d-printing-report/
About Made for Me:
Made for Me helps designers procure rapid prototypes and end use parts from a global network of 3D print suppliers, offering 40 materials and a wide range of commercial grade 3D printers. Designers are able to quickly compare quotes from multiple suppliers and order 3D printed parts online. Made for Me vets all suppliers and provides a quality guarantee on all orders.
Two manufacturing giants, Airbus and Renishaw, have partnered on a new project to help build the next generation of aircraft wings with additive manufacturing.
The $23.15 million plan promises to be one of the most ambitious and innovative developments in aerospace design for many years. Both companies hope that the project will automate the production of aircraft wings, leading to a vast reduction in development time.
airbus concept
The manufacturing process for aircraft wings is notoriously tricky. According to Airbus Chief Operating Officer Tom Williams, “this project will look at ways we can increase the robustness of the design and test process while also reducing the time this takes”.
The project; codenamed WINDY, will examine the aerodynamic modelling of wings and how 3D-printed components could be implemented in future designs. The inclusion of 3D-printed components in aircraft wings could give a lighter, more efficient structure. This would be helpful as airlines move towards building aircraft with the environmental impacts in mind.
As anyone with a fleeting interest in 3d printing knows, the technology is exceptionally useful for saving time and making complicated tasks a lot simpler. Airbus have teamed up with Renishaw because the company is metal additive manufacturing. The precision measurements required for the design of aircraft wings makes Renishaw a valuable company to collaborate with.
More people fly now than ever before, and future passenger numbers are expected to keep rising due to competitive pricing by airlines vying for business. Numerous industry experts estimate that over 30,000 new aircraft will be required to meet customer demand over the next two decades.
If Airbus can find a way to implement 3D printing in its design and production processes, it would represent a huge leap in the potential adoption of the technology by many other industries.
After all, if additive manufacturing could be useful for one of the most demanding manufacturing sectors, why can’t it be used for mass-production in dozens of other industries?
Don’t be surprised to hear some big news about the results of this project in the not-too-distant future.
3D printing is being used by most industrial designers nowadays, but how, when, and why are they using it? If you’re looking at using 3D printing within a project, or simply want to see what users of 3D technology really think about it, a new report offers insights into what designers believe are the biggest benefits and drawbacks of additive manufacturing.
“Models for Success:When, How and Why Designers are Using 3D Printing Today” contains insights derived from an international group of 49 designers, and includes several in-depth case studies that show how designers used different 3D printing technologies to speed up and improve their prototyping work. The results of the report were recently presented at the annual conference of the Industrial Designers Society of America in Detroit, Michigan.
The report, created by commercial 3D printing marketplace Made for Me, contains insights such as:
More than half of designers use 3D printing in most of their projects
Approximately 2/3 of designers have an in-house 3D printer, but 63% still outsource some prints
Which desktop and commercial 3D printers are most popular with designers, and how they find outsourced 3D print services
According to Made for Me CEO James Antifaev, “the industrial design customers we work with regularly tell us that they are interested in learning about how their peers are using 3D printing, since the rapid pace of change in this industry means that best practices are continually being developed. Our goal with this survey and report was to create something that serves the design community by sharing the stories of designers, rather than pushing specific technologies or vendors. We think this represents one of the best snapshots available today of how professional designers are using additive technologies.”
As one of the most active user communities of 3D printing, industrial designers have lessons to share with anyone who is using the technology today. The designers who contributed to the report include a range of large and small organizations around the globe, with most respondents being intermediate or senior designers in the United States.
Download the 25-page report for free at: https://madefor.me/design-and-3d-printing-report/
About Made for Me:
Made for Me helps designers procure rapid prototypes and end use parts from a global network of 3D print suppliers, offering 40 materials and a wide range of commercial grade 3D printers. Designers are able to quickly compare quotes from multiple suppliers and order 3D printed parts online. Made for Me vets all suppliers and provides a quality guarantee on all orders.
Two manufacturing giants, Airbus and Renishaw, have partnered on a new project to help build the next generation of aircraft wings with additive manufacturing.
The $23.15 million plan promises to be one of the most ambitious and innovative developments in aerospace design for many years. Both companies hope that the project will automate the production of aircraft wings, leading to a vast reduction in development time.
airbus concept
The manufacturing process for aircraft wings is notoriously tricky. According to Airbus Chief Operating Officer Tom Williams, “this project will look at ways we can increase the robustness of the design and test process while also reducing the time this takes”.
The project; codenamed WINDY, will examine the aerodynamic modelling of wings and how 3D-printed components could be implemented in future designs. The inclusion of 3D-printed components in aircraft wings could give a lighter, more efficient structure. This would be helpful as airlines move towards building aircraft with the environmental impacts in mind.
As anyone with a fleeting interest in 3d printing knows, the technology is exceptionally useful for saving time and making complicated tasks a lot simpler. Airbus have teamed up with Renishaw because the company is metal additive manufacturing. The precision measurements required for the design of aircraft wings makes Renishaw a valuable company to collaborate with.
More people fly now than ever before, and future passenger numbers are expected to keep rising due to competitive pricing by airlines vying for business. Numerous industry experts estimate that over 30,000 new aircraft will be required to meet customer demand over the next two decades.
If Airbus can find a way to implement 3D printing in its design and production processes, it would represent a huge leap in the potential adoption of the technology by many other industries.
After all, if additive manufacturing could be useful for one of the most demanding manufacturing sectors, why can’t it be used for mass-production in dozens of other industries?
Don’t be surprised to hear some big news about the results of this project in the not-too-distant future.