Stratasys Dimension SST

Stratasys Dimension SST is a 3D printing system developed by Stratasys, a leading manufacturer of 3D printing technology, in collaboration with IBM, Hewlett-Packard, and Intel. The system is based on the Fused Deposition Modeling (FDM) technology, which is also used by other Stratasys products, such as the Stratasys Fortus and Stratasys Eden. The Stratasys Dimension SST is designed to provide high-quality 3D printing solutions for various industries, including Aerospace, Automotive, and Healthcare, with companies like Boeing, General Motors, and Johnson & Johnson utilizing similar technologies.

● Introduction

The Stratasys Dimension SST is a commercial-grade 3D printing system that is designed to produce high-quality models and prototypes with complex geometries and intricate details, similar to those produced by 3D Systems and ExOne. The system is equipped with advanced features, such as Layer Thickness Control and Support Material Removal, which enable the creation of complex models with high accuracy and precision, as seen in NASA's Jet Propulsion Laboratory and MIT's Media Lab. The Stratasys Dimension SST is widely used in various industries, including Architecture, Engineering, and Product Design, with companies like Frank Gehry's Gehry Partners and IDEO utilizing similar technologies. The system is also used in Academic and Research institutions, such as Stanford University and Harvard University, to develop new 3D printing technologies and applications, in collaboration with Google and Microsoft.

● Design_and_Development

The Stratasys Dimension SST was designed and developed by Stratasys in collaboration with other leading companies, such as Siemens and Dassault Systèmes, to provide a high-quality 3D printing solution for commercial and industrial applications, similar to the Stratasys Objet and Stratasys Mojo. The system's design is based on the Fused Deposition Modeling (FDM) technology, which is a widely used 3D printing technology, also utilized by MakerBot and Ultimaker. The Stratasys Dimension SST features a robust and reliable design, with a large build envelope and advanced control systems, similar to those found in Haas Automation and DMG Mori machines. The system's development involved the collaboration of experts from various fields, including Mechanical Engineering, Materials Science, and Computer Science, from institutions like Carnegie Mellon University and University of California, Berkeley.

● Technical_Specifications

The Stratasys Dimension SST has a range of technical specifications that make it a powerful and versatile 3D printing system, comparable to the 3D Systems ProJet and ExOne Innovent. The system's build envelope is 8 x 8 x 12 inches, allowing for the creation of large and complex models, similar to those produced by Lockheed Martin and Northrop Grumman. The Stratasys Dimension SST has a layer thickness range of 0.005-0.013 inches, enabling the creation of models with high accuracy and precision, as seen in Apple's iPhone and Tesla's Electric Vehicles. The system's support material removal system allows for the easy removal of support material, making it ideal for creating complex models with intricate details, similar to those found in Swiss watchmaking and Aerospace engineering. The Stratasys Dimension SST is compatible with a range of materials, including ABS, PC, and ASA, which are also used by Materialise and Sculpteo.

● Features_and_Capabilities

The Stratasys Dimension SST has a range of features and capabilities that make it a powerful and versatile 3D printing system, comparable to the HP Jet Fusion and Carbon3D. The system's advanced control systems allow for precise control over the 3D printing process, enabling the creation of complex models with high accuracy and precision, as seen in NASA's Space Shuttle and European Space Agency's Rosetta mission. The Stratasys Dimension SST features a range of 3D printing modes, including High-Speed and High-Detail, which allow for the creation of models with varying levels of complexity and detail, similar to those produced by Disney and Pixar. The system's Layer Thickness Control feature allows for the creation of models with complex geometries and intricate details, as seen in Architecture and Product Design. The Stratasys Dimension SST is also equipped with a range of Software tools, including CATIA and SolidWorks, which enable the creation and editing of complex models, in collaboration with Dassault Systèmes and Siemens.

● Applications_and_Uses

The Stratasys Dimension SST has a range of applications and uses in various industries, including Aerospace, Automotive, and Healthcare, with companies like Boeing, General Motors, and Johnson & Johnson utilizing similar technologies. The system is used to create complex models and prototypes, such as Aircraft components and Automotive parts, as seen in Ford's F-150 and Tesla's Model S. The Stratasys Dimension SST is also used in Product Design and Architecture to create complex models and prototypes, such as Furniture and Building models, as seen in IKEA and Frank Gehry's Guggenheim Museum. The system's high accuracy and precision make it ideal for creating models with complex geometries and intricate details, as seen in Jewelry and Watchmaking, with companies like Tiffany & Co. and Patek Philippe utilizing similar technologies. The Stratasys Dimension SST is also used in Academic and Research institutions, such as MIT and Stanford University, to develop new 3D printing technologies and applications, in collaboration with Google and Microsoft. Category:3D printing