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The AnyCubic Photon Ultra is launching via Kickstarter on September 14, introducing a typically expensive feature into the desktop printing space. DLP (digital light processing) technology is favored in industries like jewelry design and dentistry as it can create incredibly detailed prints much faster than SLA-type printers, but is usually far too expensive for most everyday consumers.
Texas Instruments help co-engineer a more affordable TI DLP Pico chipset, allowing AnyCubic to bring DLP technology to the desktop printing space for the first time, and at a reasonable price. The official retail price of the AnyCubic Photon Ultra will be set at $599, but there are perks to being at the front of the queue.
The first 100 backers on the Kickstarter will pay just $399, saving 33%, and the following 100 customers can still save themselves some cash with a reduced price tag of $499.
[ul]
[li]Check out our guide for the best 3D printers[/li][li]âStupid mistakeâ caused 3D printers to take on a life of their own[/li][li]This is the best 3D modeling software of 2021[/li][/ul]
[HEADING=1]What exactly is DLP, and why should we care?[/HEADING]
[IMG alt=âA visual guide showing the differences between SLA MSLA and DLPâ]https://cdn.mos.cms.futurecdn.net/Lv...PUQXkKor4X.jpg
(Image credit: Dormlabs)
If youâve dipped even a single toe into the world of 3D printing, chances are youâve heard of AnyCubic â a well-established manufacturer of both FDM (fused deposition modeling) and SLA (stereolithography) printers. These are seen as the two most common types of 3D printers on the market, but we can generalize them to make things simpler.
FDM style printers are more common and use a heated nozzle and a motorized X/Y axis to âdrawâ a print layer by layer using melted filament, typically made from plastic such as PLA or ABS. SLA on the other hand, uses a vat of UV curing liquid resin, in which the print bed is submerged and flashes of UV light are used to rapidly cure the resin, point to point into the desired model. This is an oversimplification, as SLA printers actually use lasers combined with galvanometers to cure the resin, but you get the idea.
Resin-based printers are fantastic for picking up fine details and creating delicate prints like tabletop miniatures, while FDM printers can create larger models for things like props and prototyping. DLP technology is a version of resin-based printing that uses a specially developed projector screen, flashing an image of the entire curing layer at once which greatly speeds up the printing process.
[HEADING=1]What are the Pros and Cons?[/HEADING]
[IMG alt=âComparison between SLA and DLP printers using a bust of Sherlockâ]https://cdn.mos.cms.futurecdn.net/9X...gfr8vUnzvW.jpg
Comparison between SLA and DLP quality (Image credit: Formlabs)
An immediate benefit youâll see between DLP and SLA is speed, with DLP offering a much faster print time. Not only that, but youâll also see better longevity using a DLP style printer as SLA and MSLA hardware will need to have their UV panels replaced around every three to five months thanks to pixel burn out.
As DLP uses a projector, this isnât something you need to concern yourself with as it takes much longer for the hardware to fail, and when it does, itâll all go at once rather than gradually. This is another reason that industries prize it so highly, as DLP offers greater speed, more consistent quality over time and a longer product lifespan, making it preferable over SLA for batch production.
AnyCubic claims the Photon Ultra can run for more than 20,000 hours, and better yet, can deliver a quality thatâs "even better than 2K/4K monochrome LCD screen printersâ, despite being rated for a 720p resolution.
Additionally, the Photon Ultra operates at 40% light efficiency, around 15 times higher than LCD models that typically operate at around 2.5-3%. Regarding power consumption, things are looking peachy there too, running at 12W with an average use of 8.5W, again, much better than a standard LCD/SLA printer. Finally, this style of printer doesnât require any cooling fans, resulting in a resin printer thatâs faster, quieter, more efficient and capable of extremely fine details.
Itâs not all sunshine and rainbows though. DLP printers can leave a lightly textured surface finish because of that projector, like a much finer grain similar to that seen on FDM prints. If youâre printing something that can be sanded or even painted then this wonât prove to be an issue, and even for small, detailed models, the grain is so fine that youâd need to be holding it very close to your face to even notice the surface texture.
Improvements are being made every day to 3D printing technology too, so this isnât information we have specifically regarding the upcoming AnyCubic Photon Ultra. Thereâs every chance that the small cons to working with DLP have been smoothed out, and if those criticisms are fixed, DLP could very well replace SLA style printing in the coming years.
The AnyCubic Photon Ultra 3D printer specifications are as follows:
[ul]
[li]Build Volume: 102.4 x 57.6 x 165 mm[/li][li]Layer Height: 10 microns[/li][li]XY Resolution: 80 microns (1280 x 720 pixels)[/li][li]Z-axis positioning accuracy: N/A[/li][li]Printing Speed: 1.5 s/layer[/li][li]Bed-Leveling: N/A[/li][li]Display: 3.5-inch touchscreen[/li][li]Third-Party Materials: Yes[/li][li]Materials: 405 nm UV resin[/li][li]Printer size: 222 x 227 x 383 mm[/li][li]Weight: ~4kg[/li][/ul]
[HEADING=1]Analysis: Its a good time to be a creative[/HEADING]
[IMG alt=âA detail shot of a print from the AnyCubic Photon UItraâ]https://cdn.mos.cms.futurecdn.net/o3...VGu77zzsNX.jpg
An example print from the AnyCubic Photon Ultra 3D printer (Image credit: AnyCubic)
Looking back a few years, the idea that you could print physical objects in the comfort of your own home felt like something out of science fiction. Now, weâre spoiled for choice regarding the type of printers we can buy, and a wide range of sizes, filament types and technological breakthroughs means that thereâs never been a better time to jump into the creative making community.
Announcements for the next big thing in 3D printing (and other creative hardware like laser engravers and vacuum formers) could result in an increase of small businesses as technology that was previously restricted to large industries is downsized to sit on a shelf in our living rooms. You can even 3D print chocolate and other foods now, as well as materials such as wood and metal. Heck, you can even 3D print houses these days.
Itâs hard to say where the creative hardware industry is going, but consistent developments are bringing more affordable technology into the hands of everyday people. Itâs an exciting time, and whoâs really to say we wonât see a Star Trek-style Replicator in our homes within our lifetimes? Sign me up scotty.
[ul]
[li]3D printers could finally be about to get a lot more powerful[/li][/ul]
Continue readingâŚ
Texas Instruments help co-engineer a more affordable TI DLP Pico chipset, allowing AnyCubic to bring DLP technology to the desktop printing space for the first time, and at a reasonable price. The official retail price of the AnyCubic Photon Ultra will be set at $599, but there are perks to being at the front of the queue.
The first 100 backers on the Kickstarter will pay just $399, saving 33%, and the following 100 customers can still save themselves some cash with a reduced price tag of $499.
[ul]
[li]Check out our guide for the best 3D printers[/li][li]âStupid mistakeâ caused 3D printers to take on a life of their own[/li][li]This is the best 3D modeling software of 2021[/li][/ul]
[HEADING=1]What exactly is DLP, and why should we care?[/HEADING]
[IMG alt=âA visual guide showing the differences between SLA MSLA and DLPâ]https://cdn.mos.cms.futurecdn.net/Lv...PUQXkKor4X.jpg
(Image credit: Dormlabs)
If youâve dipped even a single toe into the world of 3D printing, chances are youâve heard of AnyCubic â a well-established manufacturer of both FDM (fused deposition modeling) and SLA (stereolithography) printers. These are seen as the two most common types of 3D printers on the market, but we can generalize them to make things simpler.
FDM style printers are more common and use a heated nozzle and a motorized X/Y axis to âdrawâ a print layer by layer using melted filament, typically made from plastic such as PLA or ABS. SLA on the other hand, uses a vat of UV curing liquid resin, in which the print bed is submerged and flashes of UV light are used to rapidly cure the resin, point to point into the desired model. This is an oversimplification, as SLA printers actually use lasers combined with galvanometers to cure the resin, but you get the idea.
Resin-based printers are fantastic for picking up fine details and creating delicate prints like tabletop miniatures, while FDM printers can create larger models for things like props and prototyping. DLP technology is a version of resin-based printing that uses a specially developed projector screen, flashing an image of the entire curing layer at once which greatly speeds up the printing process.
[HEADING=1]What are the Pros and Cons?[/HEADING]
[IMG alt=âComparison between SLA and DLP printers using a bust of Sherlockâ]https://cdn.mos.cms.futurecdn.net/9X...gfr8vUnzvW.jpg
Comparison between SLA and DLP quality (Image credit: Formlabs)
An immediate benefit youâll see between DLP and SLA is speed, with DLP offering a much faster print time. Not only that, but youâll also see better longevity using a DLP style printer as SLA and MSLA hardware will need to have their UV panels replaced around every three to five months thanks to pixel burn out.
As DLP uses a projector, this isnât something you need to concern yourself with as it takes much longer for the hardware to fail, and when it does, itâll all go at once rather than gradually. This is another reason that industries prize it so highly, as DLP offers greater speed, more consistent quality over time and a longer product lifespan, making it preferable over SLA for batch production.
AnyCubic claims the Photon Ultra can run for more than 20,000 hours, and better yet, can deliver a quality thatâs "even better than 2K/4K monochrome LCD screen printersâ, despite being rated for a 720p resolution.
Additionally, the Photon Ultra operates at 40% light efficiency, around 15 times higher than LCD models that typically operate at around 2.5-3%. Regarding power consumption, things are looking peachy there too, running at 12W with an average use of 8.5W, again, much better than a standard LCD/SLA printer. Finally, this style of printer doesnât require any cooling fans, resulting in a resin printer thatâs faster, quieter, more efficient and capable of extremely fine details.
Itâs not all sunshine and rainbows though. DLP printers can leave a lightly textured surface finish because of that projector, like a much finer grain similar to that seen on FDM prints. If youâre printing something that can be sanded or even painted then this wonât prove to be an issue, and even for small, detailed models, the grain is so fine that youâd need to be holding it very close to your face to even notice the surface texture.
Improvements are being made every day to 3D printing technology too, so this isnât information we have specifically regarding the upcoming AnyCubic Photon Ultra. Thereâs every chance that the small cons to working with DLP have been smoothed out, and if those criticisms are fixed, DLP could very well replace SLA style printing in the coming years.
The AnyCubic Photon Ultra 3D printer specifications are as follows:
[ul]
[li]Build Volume: 102.4 x 57.6 x 165 mm[/li][li]Layer Height: 10 microns[/li][li]XY Resolution: 80 microns (1280 x 720 pixels)[/li][li]Z-axis positioning accuracy: N/A[/li][li]Printing Speed: 1.5 s/layer[/li][li]Bed-Leveling: N/A[/li][li]Display: 3.5-inch touchscreen[/li][li]Third-Party Materials: Yes[/li][li]Materials: 405 nm UV resin[/li][li]Printer size: 222 x 227 x 383 mm[/li][li]Weight: ~4kg[/li][/ul]
[HEADING=1]Analysis: Its a good time to be a creative[/HEADING]
[IMG alt=âA detail shot of a print from the AnyCubic Photon UItraâ]https://cdn.mos.cms.futurecdn.net/o3...VGu77zzsNX.jpg
An example print from the AnyCubic Photon Ultra 3D printer (Image credit: AnyCubic)
Looking back a few years, the idea that you could print physical objects in the comfort of your own home felt like something out of science fiction. Now, weâre spoiled for choice regarding the type of printers we can buy, and a wide range of sizes, filament types and technological breakthroughs means that thereâs never been a better time to jump into the creative making community.
Announcements for the next big thing in 3D printing (and other creative hardware like laser engravers and vacuum formers) could result in an increase of small businesses as technology that was previously restricted to large industries is downsized to sit on a shelf in our living rooms. You can even 3D print chocolate and other foods now, as well as materials such as wood and metal. Heck, you can even 3D print houses these days.
Itâs hard to say where the creative hardware industry is going, but consistent developments are bringing more affordable technology into the hands of everyday people. Itâs an exciting time, and whoâs really to say we wonât see a Star Trek-style Replicator in our homes within our lifetimes? Sign me up scotty.
[ul]
[li]3D printers could finally be about to get a lot more powerful[/li][/ul]
Continue readingâŚ