This week, Stratasys has introduced the J735 - based on the J750, it this new printer has all of the capability in a smaller package. The J735 3D printer delivers unrivaled aesthetic performance - true, full-color capability with texture mapping and color gradients, down to the voxel level.
GrabCAD Print provides Stratasys users with a straightforward workflow that is designed to simplify the process of going from design to printed product. Over the next few weeks, we'll be taking the time to dive into the use of this awesome software, and provide you with the resources to help you get started with GrabCAD Print.
Agilus30 - the groundbreaking new Rubber-Like offering introduced by Stratasys earlier this year - is now compatible with all Stratasys J750 3D Printers! Available in both opaque and translucent colors, Agilus30 material enables simulation for a very wide variety of finished products.
Visit Cimetrix Solutions Inc. at the Canadian Manufacturing Technology Show (Booth # 1139) and learn from the experts on as to how you can leverage 3D Printing (Additive Manufacturing) and 3D Scanning to support your product development and manufacturing initiatives.
The potential for additive manufacturing to disrupt the traditional supply chain is another means by which 3D Printing is disrupting traditional manufacturing processes. For numerous industries, the incorporation of 3D Printing into production can facilitate the minimization of logistics costs for both small and large manufacturers, whilst also bolstering manufacturing processes themselves.
It is often required to track various jobs and costs associated with different projects when using a Polyjet printing solution. Defining project specific costs allows the end user to define budget constraints, outsourcing options, and in-house cost/time savings.
Effective support removal is one of the key pillars of overall Polyjet part quality, and can make the difference between good and great results. This Thursday, we'll be walking you through some tips and tricks for effective removal of SUP705.
As the utilization of 3D Printing and additive manufacturing continues to disseminate amongst a number of industries, medical 3D printing has seen some of the most rapid grown. 3D-printed anatomical models for surgical planning and clinical training have a wide array of applications in the hospital inpatient setting.
As many of us may already know, our Stratasys Polyjet systems - including the J750, Objet Connex Series, and the Objet Desktop Series - are capable of very high resolution printing. With high accuracy also comes high responsibility for ensuring that this accuracy is up kept and print quality stays optimal. A large portion of this up keep is achieved in the simple process of cleaning heads and general machine cleanliness.
Stratasys and Cimetrix has released our latest ground-breaking advance in PolyJet material technology: Digital ABS Plus. As the name indicates, this is a new, advanced version of the high performance Digital ABS material released in 2011.
Agilus30 pushes the boundaries of rapid prototype design verification, and brings rubber-like 3D printing into the realm of functional prototyping. Combined with Sup706, our soluble support material, Agilus30 can be used to create intricate components and provides effortless support removal.
As 3D Printing continues to grow, there has been the emeregence of several hobby-level technologies in the marketplace. Though useful, this group of printers are quite different from there professional-grade coutnerparts, the technology upon which today's 3D Printers, regardless of class, are built. Today, we will be sharing a recent stratasys post outlining key points to consider when delving into the realm of additive manufacturing.
The product development arm of Speedo is focused at their research and development center, using their Stratasys PolyJet technology for advanced, multi-material prototyping and design validation.
The medical community continues to be one of the fastest growing users of additive manufacturing technologies. With a long history of 3D printing being utilized to enhance medical device creation, enhancements to printing technologies have facilitated a vast array of uses beyond simple device creation. As utilization of these technologies continues to rise, additive manufacturing continues to be a great facilitator of precision medicine throughout clinics accross North America. Amongst the leaders of emerging additive medical applications lies surgical planning - physicians around the world are using 3D printing technologies to convert patient data into functional models, used for both educational and practical purposes. In today's post, we will be revieing a recent post written by Dr. Vijay Iver.
On Thursday, October 13st, 2016, members of the Sheridan Community and the Canadian Government gathered at the Davis Campus for an exciting announcement. The Honourable Reza Moridi, Minister of Research, Innovation and Science, was joined by Amrit Mangat, MPP for Mississauga-Brampton South at Sheridan’s Davis Campus today to announce a major investment in Sheridan’s additive manufacturing research capabilities.
In today's post, we will consider the hospital opportunity to take advantage of 3D printing to improve patient care, research, education and training, and overall hospital efficiency.
In today's blog post we will be reviewing the advantages of SUP706, as well as providing insight our Applications Team has to offer after upgrading our Objet 500Connex 3 to the soluble support system and integrating it into our workflow.
Year after year, students from institutions that have partnered with Cimetrix place exceedingly well in the Extreme Redesign Contest. This year was no different, as students learning on technology acquired from Cimetrix have placed on the podium in a number of different categories
Researchers at McGill have been given a federal grant in order to research improvements in technologies used during surgery. More than $1.6 million will be used to train students who are developing those technologies, which include Stratasys 3D Printers.
The surface quality of a 3D printed part is strongly influenced by the resolution of the STL file which it is processed from; therefore, it is essential to ensure that the procedure of exporting an STL file from the native CAD file is performed correctly. This week, we will be walking you through various settings for exporting optimized STL files for use with your Stratasys 3D Printer.
To hasten and sharpen that crucial decision-making, Synergy brought a Stratasys J750 3D Printer in-house to produce whole-product prototypes in full color, even with multiple materials, textures and gradients, in as little as a few hours. Read on to learn how the unmatched realism afforded by the J750 has elevated Synergy's design services.
Stratasys reinvents 3D Printing. Again. Introducing the Stratasys J75 3D Printer - a Polyjet-based printing platform that delivers unprecedented product realism, combining multi-material printing with true full-color capability for the most versatile 3D Printing platform on the market today.
At the company’s inception, computer simulations and cadavers were the only way to train professionals on neurosurgery equipment. CBMTI felt 3D bio models could greatly enhance training, and became interested in 3D printing as a way to build quality models quickly, and with unparalleled realism.
Build optimization is often dependent on a part’s function (conceptual model, functional prototype, manufacturing tool or end-use part). Based on the part’s function, the user must select the appropriate orientation to balance or optimize surface finish, strength or build time of the part.
Stratasys Creative Colors Software brings the power and freedom of 3D printing to more designers around the world. By forming a direct bridge between Adobe Photoshop CC and Objet Connex3, it enables designers to easily 3D print their most imaginative creations without cumbersome 3D printing workflows.