Aurora Labs - der schnellste Metalldrucker in spe (Seite 47)
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letztes Jahr kam der 4E am 24.8.;
bin gespannt, wann diesmal...
bin gespannt, wann diesmal...
Patente
Zusammenfassung: Ein Gerät zur Ausbreitung geladener Teilchen hat einen Generator, der eine Vakuumkammer mit einer Pistole enthält, um einen Strahl geladener Teilchen durch einen Strahlaustritt zu entladen. Am Strahlaustritt schließt sich ein höherer Druckbereich an die Vakuumkammer an und ist bei einem Druck größer als ein Druck der Vakuumkammer haltbar. Eine Plasmaschnittstelle am Strahlaustritt umfasst einen Plasmakanal mit mindestens drei Elektrodenplatten, die zwischen ihrem ersten Ende und ihrem zweiten Ende angeordnet sind. Ein Steuersystem ist dafür ausgelegt, eine Folge von elektrischen Strömen an die Elektrodenplatten anzulegen, die bewirken, dass sich mindestens ein Plasma vom ersten Ende zum zweiten Ende des Plasmakanals bewegt, wodurch der Strahlaustritt nach unten gepumpt wird, und im Betrieb wird der Strahl geladener Teilchen aus der Vakuumkammer durch das oder jedes Plasma in den höheren Druckbereich weitergeleitet.
Typ: Anwendung
Gespeichert: 21. Juni 2016
Erscheinungsdatum: 5. Juli 2018
Bewerber: Aurora Labs Limited
Erfinder: David Budge
3D-Druckverfahren und -Gerät
Veröffentlichungsnummer: 20180162046
Zusammenfassung: Ein Druckgerät dient zum Drucken eines dreidimensionalen Objekts. Die Vorrichtung umfasst eine Arbeitsfläche, eine Energiequelle zum Aussenden mindestens eines Energiestrahls auf die Arbeitsfläche und einen Pulverabgabemechanismus zum Auftragen von Pulver auf die Arbeitsfläche, wobei das Pulver durch den oder jeden Energiestrahl geschmolzen werden kann. Der Pulverabgabemechanismus ist so konfiguriert, dass mehrere Pulverschichten gleichzeitig auf die Arbeitsfläche aufgetragen werden.
Typ: Anwendung
Gespeichert: 13. Juni 2016
Erscheinungsdatum: 14. Juni 2018
Bewerber: Aurora Labs Limited
Erfinder: David Budge
3D-Druckverfahren und -Gerät
Veröffentlichungsnummer: 20170203391
Zusammenfassung: Ein Druckgerät dient zum Drucken eines dreidimensionalen Bauteils. Das Gerät verfügt über eine Arbeitsfläche, eine Energiequelle zum Aussenden eines Energiestrahls auf die Arbeitsfläche, mindestens ein Zuführrohr zur Abgabe von Pulver auf die Arbeitsfläche und Auflademittel zum elektrostatischen Aufladen des Pulvers und der Arbeitsfläche. Das Pulver wird durch den Energiestrahl geschmolzen und die auf das Pulver aufgebrachte Ladung hat eine entgegengesetzte Polarität zur Ladung auf der Betriebsfläche.
Typ: Anwendung
Gespeichert: 7. September 2015
Erscheinungsdatum: 20. Juli 2017
Bewerber: Aurora Labs Limited
Erfinder: David Budge
Übersetzt mit www.DeepL.com/Translator
Zusammenfassung: Ein Gerät zur Ausbreitung geladener Teilchen hat einen Generator, der eine Vakuumkammer mit einer Pistole enthält, um einen Strahl geladener Teilchen durch einen Strahlaustritt zu entladen. Am Strahlaustritt schließt sich ein höherer Druckbereich an die Vakuumkammer an und ist bei einem Druck größer als ein Druck der Vakuumkammer haltbar. Eine Plasmaschnittstelle am Strahlaustritt umfasst einen Plasmakanal mit mindestens drei Elektrodenplatten, die zwischen ihrem ersten Ende und ihrem zweiten Ende angeordnet sind. Ein Steuersystem ist dafür ausgelegt, eine Folge von elektrischen Strömen an die Elektrodenplatten anzulegen, die bewirken, dass sich mindestens ein Plasma vom ersten Ende zum zweiten Ende des Plasmakanals bewegt, wodurch der Strahlaustritt nach unten gepumpt wird, und im Betrieb wird der Strahl geladener Teilchen aus der Vakuumkammer durch das oder jedes Plasma in den höheren Druckbereich weitergeleitet.
Typ: Anwendung
Gespeichert: 21. Juni 2016
Erscheinungsdatum: 5. Juli 2018
Bewerber: Aurora Labs Limited
Erfinder: David Budge
3D-Druckverfahren und -Gerät
Veröffentlichungsnummer: 20180162046
Zusammenfassung: Ein Druckgerät dient zum Drucken eines dreidimensionalen Objekts. Die Vorrichtung umfasst eine Arbeitsfläche, eine Energiequelle zum Aussenden mindestens eines Energiestrahls auf die Arbeitsfläche und einen Pulverabgabemechanismus zum Auftragen von Pulver auf die Arbeitsfläche, wobei das Pulver durch den oder jeden Energiestrahl geschmolzen werden kann. Der Pulverabgabemechanismus ist so konfiguriert, dass mehrere Pulverschichten gleichzeitig auf die Arbeitsfläche aufgetragen werden.
Typ: Anwendung
Gespeichert: 13. Juni 2016
Erscheinungsdatum: 14. Juni 2018
Bewerber: Aurora Labs Limited
Erfinder: David Budge
3D-Druckverfahren und -Gerät
Veröffentlichungsnummer: 20170203391
Zusammenfassung: Ein Druckgerät dient zum Drucken eines dreidimensionalen Bauteils. Das Gerät verfügt über eine Arbeitsfläche, eine Energiequelle zum Aussenden eines Energiestrahls auf die Arbeitsfläche, mindestens ein Zuführrohr zur Abgabe von Pulver auf die Arbeitsfläche und Auflademittel zum elektrostatischen Aufladen des Pulvers und der Arbeitsfläche. Das Pulver wird durch den Energiestrahl geschmolzen und die auf das Pulver aufgebrachte Ladung hat eine entgegengesetzte Polarität zur Ladung auf der Betriebsfläche.
Typ: Anwendung
Gespeichert: 7. September 2015
Erscheinungsdatum: 20. Juli 2017
Bewerber: Aurora Labs Limited
Erfinder: David Budge
Übersetzt mit www.DeepL.com/Translator
Aurora Labs 3D
Published on 10 Jun 2018
Aurora Labs' alpha prototype of the RMP1 next generation high speed, high throughput additive manufacturing technology that will make 3D printing a real possibility for mass part production.
Published on 10 Jun 2018
Aurora Labs' alpha prototype of the RMP1 next generation high speed, high throughput additive manufacturing technology that will make 3D printing a real possibility for mass part production.
Trading Spotlight
Neuer 2. Test der neuen Technologie.
Beeindruckend, in zwei Sekunden entsteht diese Schicht, Video in Echtzeit
100mm Squares Test - 17th Apr 2018
https://auroralabs3d.com/#!media/videos/20180417_01
Beeindruckend, in zwei Sekunden entsteht diese Schicht, Video in Echtzeit
100mm Squares Test - 17th Apr 2018
https://auroralabs3d.com/#!media/videos/20180417_01
Die Russen sind nun auch Vertriebspartner für den alten Titanium S Drucker.
https://smallcaps.com.au/aurora-labs-future-manufacturing-in…
Aurora Labs looks to seize future of additive manufacturing with industrial 3D metal printing prototype
March 23, 2018
Industrial technology and 3D printing specialist Aurora Labs (ASX: A3D) is inching closer to developing the next generation of industrial production, by creating a Power Production Unit (PPU) prototype.
The company said that its “patent pending” technology represents a significant advance over and above current production methods within the metallurgical manufacturing and 3D printing space.
Aurora currently manufacturers one of the world’s most versatile 3D metal printers, S-Titanium Pro, which uses metal powder as the building block to create elaborate designs made entirely from metal.
Aurora offers the S-Titanium Pro at a price in the region of US$50,000 per unit, which makes it a highly specialised and exclusive manufacturing method available to a limited number of manufacturers.
Aurora says that if it can successfully develop its PPU and sees the necessary patents granted in the foreseeable future, it will secure a superior competitive edge over other 3D printing companies in the additive manufacturing space, via substantially lower production costs and “tightly controlled powder sizes”.
Keeping its trade secrets close to its chest, Aurora says the technology it’s developing will allow the company to be the first to produce metal powders at large volumes and at a competitive price compared to existing processes used by other powder manufacturers.
This milestone could ultimately allow Aurora to move into the development of various consumable powders that will benefit Aurora’s “large format technology” and fulfil growing demand for precise metals-based additive manufacturing on a large scale, across the globe.
In addition to its 3D printing ambitions, Aurora is also keen to advance its technology and abilities in order to create improvements in multiple metallurgical applications such as Metal Injection Moulding (MIM), powder metallurgy, laser cladding and thermal sprays.
Rapidly growing 3D metal market
According to Aurora, it will also be exploring business models and commercial opportunities in international markets where there is a large demand for metal powders in markets not related to 3D printing. As part of its internal development process, Aurora is also collaborating with Australia’s leading 3D metals lab at the CSIRO.
Research done by Technavio indicates revenue from the combined global metal powders market was US$3.5 billion in 2016 and forecast to grow at a CAGR of 3.72% by 2021, to reach US$4.1 billion.
More broadly, Technavio’s analysts forecast the global metal additive manufacturing market to grow at a CAGR of 24.47% during the period 2016-2020.
Aurora says it is “renewing discussions with a number of global powder manufacturers” with a view to potentially involving them in the commercialisation of its novel technology.
“We are progressing very rapidly with our powder development as we see the extensive opportunity here readily available. Metal powder production is critical to the mass adoption of metal 3D printing for manufacturing and our progress will open up a considerable market for us to tap into, as a single powder production unit could potentially produce up to 5 tonnes of powder per day,” said David Budge, Managing Director of Aurora Labs.
“There are obvious synergies between metal powder production and the potential demand created by additive manufacturing, such as with our Large Format Printer, and we intend to capitalise on this opportunity,” said Mr Budge.
To Russia with commerce
To advance its overarching strategy to commercialise additive manufacturing and 3D metal printing on a large commercial scale, Aurora plans to supplement its longer-term plans with commercial sales in the short-term.
As part of its commercial strategy, the company recently agreed on a distribution agreement with Nissa Digispace, a Russian company, for an initial two-year term with a further three-year extension already provisionally agreed.
The terms of the deal provide Nissa Digispace with exclusive distribution rights for Aurora’s small format printers in Russia and the former CIS, in countries such as Belarus, Kazakhstan, Kyrgyzstan and Armenia.
Furthermore, Aurora has also granted non-exclusive distribution rights for Nissa to distribute its printers in Azerbaijan, Georgia, Moldova, Tajikistan, Turkmenistan and Uzbekistan.
According to Mr Budge, the addition of a further distributor and additional new territory builds on Aurora’s existing distribution arrangements already in place in multiple countries.
“One of Aurora’s current commercial objectives is to continue to commercialise the SFP, with the cash received from sales used to assist with funding the development of the Medium and Large Format Printers. Expanding our global distribution network with a solid partner such as Nissa Digispace greatly assists us in meeting this goal,” said Mr Budge.
“We look forward to the impact this can have on small format printer sales, which will ultimately support the development of our far more significant commercial opportunity within the large format technology and large-scale manufacturing sector,” he added.
Both Aurora and Nissa are keeping the financial terms of their agreement confidential, although Aurora does admit that they “do not deviate significantly from the Company’s other distribution arrangements”.
As part of the deal, Aurora is currently factory training Nissa Digispace staff in operation and full servicing of the S-Titanium Pro at Aurora’s Bibra Lake facility in Western Australia
On completion of the training, the first S-Titanium Pro will be shipped to Nissa Digispace as their demonstration unit, at distributor cost.
https://smallcaps.com.au/aurora-labs-future-manufacturing-in…
Aurora Labs looks to seize future of additive manufacturing with industrial 3D metal printing prototype
March 23, 2018
Industrial technology and 3D printing specialist Aurora Labs (ASX: A3D) is inching closer to developing the next generation of industrial production, by creating a Power Production Unit (PPU) prototype.
The company said that its “patent pending” technology represents a significant advance over and above current production methods within the metallurgical manufacturing and 3D printing space.
Aurora currently manufacturers one of the world’s most versatile 3D metal printers, S-Titanium Pro, which uses metal powder as the building block to create elaborate designs made entirely from metal.
Aurora offers the S-Titanium Pro at a price in the region of US$50,000 per unit, which makes it a highly specialised and exclusive manufacturing method available to a limited number of manufacturers.
Aurora says that if it can successfully develop its PPU and sees the necessary patents granted in the foreseeable future, it will secure a superior competitive edge over other 3D printing companies in the additive manufacturing space, via substantially lower production costs and “tightly controlled powder sizes”.
Keeping its trade secrets close to its chest, Aurora says the technology it’s developing will allow the company to be the first to produce metal powders at large volumes and at a competitive price compared to existing processes used by other powder manufacturers.
This milestone could ultimately allow Aurora to move into the development of various consumable powders that will benefit Aurora’s “large format technology” and fulfil growing demand for precise metals-based additive manufacturing on a large scale, across the globe.
In addition to its 3D printing ambitions, Aurora is also keen to advance its technology and abilities in order to create improvements in multiple metallurgical applications such as Metal Injection Moulding (MIM), powder metallurgy, laser cladding and thermal sprays.
Rapidly growing 3D metal market
According to Aurora, it will also be exploring business models and commercial opportunities in international markets where there is a large demand for metal powders in markets not related to 3D printing. As part of its internal development process, Aurora is also collaborating with Australia’s leading 3D metals lab at the CSIRO.
Research done by Technavio indicates revenue from the combined global metal powders market was US$3.5 billion in 2016 and forecast to grow at a CAGR of 3.72% by 2021, to reach US$4.1 billion.
More broadly, Technavio’s analysts forecast the global metal additive manufacturing market to grow at a CAGR of 24.47% during the period 2016-2020.
Aurora says it is “renewing discussions with a number of global powder manufacturers” with a view to potentially involving them in the commercialisation of its novel technology.
“We are progressing very rapidly with our powder development as we see the extensive opportunity here readily available. Metal powder production is critical to the mass adoption of metal 3D printing for manufacturing and our progress will open up a considerable market for us to tap into, as a single powder production unit could potentially produce up to 5 tonnes of powder per day,” said David Budge, Managing Director of Aurora Labs.
“There are obvious synergies between metal powder production and the potential demand created by additive manufacturing, such as with our Large Format Printer, and we intend to capitalise on this opportunity,” said Mr Budge.
To Russia with commerce
To advance its overarching strategy to commercialise additive manufacturing and 3D metal printing on a large commercial scale, Aurora plans to supplement its longer-term plans with commercial sales in the short-term.
As part of its commercial strategy, the company recently agreed on a distribution agreement with Nissa Digispace, a Russian company, for an initial two-year term with a further three-year extension already provisionally agreed.
The terms of the deal provide Nissa Digispace with exclusive distribution rights for Aurora’s small format printers in Russia and the former CIS, in countries such as Belarus, Kazakhstan, Kyrgyzstan and Armenia.
Furthermore, Aurora has also granted non-exclusive distribution rights for Nissa to distribute its printers in Azerbaijan, Georgia, Moldova, Tajikistan, Turkmenistan and Uzbekistan.
According to Mr Budge, the addition of a further distributor and additional new territory builds on Aurora’s existing distribution arrangements already in place in multiple countries.
“One of Aurora’s current commercial objectives is to continue to commercialise the SFP, with the cash received from sales used to assist with funding the development of the Medium and Large Format Printers. Expanding our global distribution network with a solid partner such as Nissa Digispace greatly assists us in meeting this goal,” said Mr Budge.
“We look forward to the impact this can have on small format printer sales, which will ultimately support the development of our far more significant commercial opportunity within the large format technology and large-scale manufacturing sector,” he added.
Both Aurora and Nissa are keeping the financial terms of their agreement confidential, although Aurora does admit that they “do not deviate significantly from the Company’s other distribution arrangements”.
As part of the deal, Aurora is currently factory training Nissa Digispace staff in operation and full servicing of the S-Titanium Pro at Aurora’s Bibra Lake facility in Western Australia
On completion of the training, the first S-Titanium Pro will be shipped to Nissa Digispace as their demonstration unit, at distributor cost.
https://www.dnvgl.com/oilgas/perspectives/new-centre-to-boos…
New centre to boost 3D printing in oil and gas industry
3D printing can transform field development projects and operations
Adoption levels in oil and gas remain low due to trust issues
A new DNV GL facility will build confidence in additive manufacturing
The facility can help Singapore become a global hub for the technology
...For instance, DNV GL is working with 3D metal printer-maker Aurora Labs, Australia, to develop an additive manufacturing certification standard for the whole value chain from powders to parts, certifying the technical performance of Aurora’s technology and independently endorsing its processes and products.
...
New centre to boost 3D printing in oil and gas industry
3D printing can transform field development projects and operations
Adoption levels in oil and gas remain low due to trust issues
A new DNV GL facility will build confidence in additive manufacturing
The facility can help Singapore become a global hub for the technology
...For instance, DNV GL is working with 3D metal printer-maker Aurora Labs, Australia, to develop an additive manufacturing certification standard for the whole value chain from powders to parts, certifying the technical performance of Aurora’s technology and independently endorsing its processes and products.
...
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