GRIMSBY MAGNETICS® LightningSpee3D ExOne S - Max
Description
GRIMSBY MAGNETICS® LightningSpee3D
ExOne S-Max
Digital Core Processing
The sand casting process is one of the oldest casting methods and has been used for metal casting since it became popular at the turn of the 20th century. This process uses binder systems to hold together mineral or artificial aggregates so that metals can be poured into moulds produced from these materials. The mould is then removed and not reused. Advancements in technology have concentrated on development of superior binder systems, novel smart automated metal processing technologies, Magnetic Technologies plus Canada Corp. GRIMSBY MAGNETICS® LightningSpee3D and industrial size Advanced Manufacturing Machines GRIMSBY MAGNETICS® XJPRO2000L F-Series Ontario, Canada that more effectively deliver metal to the mould free of oxides and other contaminants. The use of additively printed moulds and cores for sand casting and Super Machines for example the GRIMSBY MAGNETICS® XJPRO2000S7R Made in Canada has become more common for prototypes, low to medium volume production and the replacement of complicated core assemblies with single cores.
At Magnetic Technologies plus Canada Corp. we meet the challenges of modern engineering with our expertise in Advanced Manufacturing Machines, Super Machines. We successfully accompany our project partners into the age of digital engineering by supporting them in the design of components, assemblies, products, processes and machines.
We also offer our customers support in the development of complex metal products. Process specific simulation approaches for Casting and composite technology as well as for additive manufacturing processes enabling you to achieve world class metal products.
Our expertise includes, structural simulation for topology optimization of structural components.
Process simulation and procedure of the filling process during sand casting.
Physics based simulation for the design of machines or production processes.
Common finite element and finite volume methods as well as approaches of Computational Fluid Dynamics CFD are further developed and applied to specific processes. In addition we use methods of artificial intelligence to design processes more efficiently on the basis of data evaluation.
GRIMSBY MAGNETICS® LightningSpee3D
In the run up to the test however, framework conditions had to be created for these outstanding results, which must be taken into account when evaluating and reproducing other industrial castings. Of course, precision metal castings used 3D printed cores and 3D print production moulds from ExOne USA instead of regular cores shot from the traditional manufacturing process.
The S-Max is a large volume sand casting 3D printer by ExOne USA utilised for additively manufactured moulds needed for industrial metal casting. This machine doesnt print directly in metal but makes molds and cores to pour in molten metal by jet binding fine powder. The printer applies special Furan resin binder to layers of silica sand, cerabeads or zirconia which are glued together making a solid 3D cast.
Magnetic Technologies plus Canada Corp. GRIMSBY MAGNETICS® LightningSpee3D technology is capable of processing metal at speeds of up to 1200 kg per hour, like 50 seconds for every mould. It has been reported that these super speeds enable the Grimsby Magnetics® to supply 15 ExOne S-Max 1800mm x 1000mm x 700mm molds job boxes, each with a volume of 1260 L in less than 90 minutes.
Nonstop Innovation GRIMSBY MAGNETICS® Ontario, Canada
In conclusion, it can once again be proven that necessity is the Queen of the best pragmatic innovations. In the age of high tech it was also time to leave behind another piece of the past. So, with its development work, Magnetic Technologies plus Canada Corp. has defeated the odds again with a clever formulation, Acceleration, Speed and material deposition.
The 3D printers material placement is controlled using CAD models or flat images.
Additive manufacturing is mostly used in the manufacturing industry to produce parts with complex shapes that are not easily reproducible by other means. The main challenge lies in the geometry. If an object is to be manufactured, the form must be broken down into a series of tracks that accumulate material through the stable and reliable build up of layers. Because of this 3D printing is typically a very tightly controlled process, both in terms of acceleration and speed, as well as material deposition
Magnetic Technologies plus Canada Corp. is a privately owned technology firm founded in 1985 in Grimsby, Ontario, Canada pioneering magnetic and additive manufacturing technologies, printing 3D objects in Light Reactive Thermoset Resin and metal. Today the company has a design, engineering and implementation network of professionals in a number of subsidiaries. This network with production site in Canada ensures system technology stability, system technology reliablility, compliance as well as comprehensive remote system service, Connect®
Specifications
Manufacturer: Magnetic Technologies plus Canada Corp.
Brand: Grimsby Magnetics®
Model: Direct Metal LightningSpee3D
Dimensions : 188"W x 148"D x 121"H
Technology: Additive Magnetic
Principle: Tesla
PLC:SIPLUS S7 300 CPU314C-2PN/DP
Power output: 50 kW
HMI: SIMATIC MP 377 12" Multi Panel
Interface Dialog: Graphic
IoT Cloud: Siemens MindSphere®
Connectivity: Hyper IoT SIM 4G LTE
Interface Languages: English French
Operating Frequency: 18 kHz
Spectrum: Medium Frequency
Voltage: 480 Volts 3-phase 50/60Hz
Cooling: Air / Water / Air
Diff. Pressure: Helium/Argon/Nitrogen
Atmosphere: Vacuum negative 5 bar
Tmax: 1790°C PtRhPt Type R
Tmax: 540°C - 3000°C TIP InfraRed
Cycle Time: 50 sec.
Machine weight: 8620 lbs.
Country of origin: Canada
Compliance: CSA ESA cULus
CAD $ 499,900.00
How to buy? Contact Us at
mechatronics.ca@outlook.com
Magnetic Technologies
plus Canada Corp.
Ontario, Canada
Ph: (647) 874 8662
GRIMSBY MAGNETICS® LightningSpee3D
ExOne S-Max
Traitement de base numérique
Le processus de moulage au sable est l'une des méthodes de moulage les plus anciennes et a été utilisé pour le moulage des métaux depuis qu'il est devenu populaire au tournant du 20e siècle. Ce procédé utilise des systèmes de liants pour maintenir ensemble des agrégats minéraux ou artificiels afin que les métaux puissent être coulés dans des moules fabriqués à partir de ces matériaux. Le moule est ensuite retiré et non réutilisé. Les progrès technologiques se sont concentrés sur le développement de systèmes de liants supérieurs, de nouvelles technologies intelligentes automatisées de traitement des métaux, Magnetic Technologies plus Canada Corp. au moule exempt d'oxydes et d'autres contaminants. L'utilisation de moules et de noyaux imprimés de manière additive pour le moulage au sable et les Super Machines, par exemple le GRIMSBY MAGNETICS® XJPRO2000S7R fabriqué au Canada, est devenue plus courante pour les prototypes, la production de volumes faibles à moyens et le remplacement d'assemblages de noyaux complexes par des noyaux simples.
Chez Magnetic Technologies plus Canada Corp., nous relevons les défis de l'ingénierie moderne grâce à notre expertise dans les machines de fabrication avancées, les super machines. Nous accompagnons avec succès nos partenaires de projet dans l'ère de l'ingénierie numérique en les accompagnant dans la conception de composants, d'assemblages, de produits, de procédés et de machines.
La S-Max est une imprimante 3D de coulée de sable à grand volume d'ExOne USA utilisée pour les moules fabriqués de manière additive nécessaires à la coulée de métal industrielle. Cette machine n'imprime pas directement dans le métal mais fabrique des moules et des noyaux pour verser du métal en fusion par jet de poudre fine. L'imprimante applique un liant de résine Furan spécial sur des couches de sable de silice, de cerabeads ou de zircone qui sont collées ensemble pour former un moulage 3D solide.
Magnetic Technologies plus Canada Corp. La technologie LightningSpee3D de GRIMSBY MAGNETICS® est capable de traiter le métal à des vitesses allant jusqu'à 1200 kg par heure, soit 50 secondes pour chaque moule. Il a été rapporté que ces super vitesses permettent à GRIMSBY MAGNETICS® de fournir 15 boîtes de travail de moules ExOne S-Max 1800 mm x 1000 mm x 700 mm, chacune avec un volume de 1260 L en moins de 90 minutes.
Innovation continue GRIMSBY MAGNETICS® Ontario, Canada
En conclusion, on peut une fois de plus prouver que la nécessité est la reine des meilleures innovations pragmatiques. À l'ère de la haute technologie, il était également temps de laisser derrière nous un autre morceau du passé. Ainsi, avec son travail de développement, Magnetic Technologies plus Canada Corp. a de nouveau vaincu les chances avec une formulation intelligente, une accélération, une vitesse et un dépôt de matériau.
Le placement des matériaux des imprimantes 3D est contrôlé à l'aide de modèles CAO ou d'images plates.
La fabrication additive est principalement utilisée dans l'industr
- Ad Type: Offering
- For Sale By: Business
buy and sell | business, industrial
2023-01-13