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Getting to market faster in the transport industry with 3D printed end-use parts
Manufacturing for the transport industry has a flexibility problem, download our guide to learn how 3D printing can help. 3D printing services can be an incredibly powerful solution to transportation OEMs’ growing problem: As more electrical components are used in...
Additive or Subtractive Manufacturing for Part Production?
If you are wondering which part production method makes the most sense for your company to use additive manufacturing vs subtractive manufacturing, we can help. Knowing which method is best for your application or industry can be challenging. That’s why we’re breaking...
Prototyping Flies to New Heights with LOCTITE Resins
TriMech P3 Advanced Manufacturing Services and LOCTITE resins are bringing 3D printing to the skies. In a recent project, TriMech worked with ScaleBirds, a southeastern Connecticut company that specializes in creating replica, retro, and radial-engine powered...
3D printed aerospace parts made to withstand harsh environments
Learn how the Stratasys Origin One 3D printer produced production grade products that meet aerospace part requirements and perform in harsh environments. TriMech client TE Connectivity, a world leader in the production of connectors and sensors, manufactures 192...
Stratasys FDM Technology and Services from TriMech Transforms Manufacturing
Built for the production floor, Stratasys FDM technology and FDM services from TriMech help designers and engineers to quickly develop tooling, end-use parts and prototypes for demanding fields such as medical, aerospace, automotive, government and military, consumer...
Evolution of Digital Anatomy and 3D Printing in the Medical Industry
Innovation saves lives, digital anatomy 3D printing continues to empower doctors, researchers and medical device manufacturers to create solutions faster, test concepts thoroughly and customize solutions like never before. Watch the on-demand webinar below, as...
Additive Manufacturing a Production-Grade Saddle Design
Maximum comfort at top riding performance achieved with the Stratasys H350™, leveraging SAF technology. The objective of this case study is to evaluate both lab and field results for an additive manufactured saddle design created by DQBD. DQBD is an innovation-driven...
SAF 3D Printing Best Practices from Part Design to Finishing
This SAF 3D printing best practices guide aims to help engineers design quality and cost-effective parts. For production using a SAF 3D printing service and the Stratasys® H350™ 3D printer. As with other manufacturing techniques, the 3D printing process can be...
Transforming Industrial Machinery Production with 3D Printing Services
When it comes to industrial machinery production – be it scientific instruments, factory equipment or power tools, to name just a few – a multitude of different intricate parts will be needed to ensure the product will function as intended. For industrial...
SAF 3D Printing
Parts with movement such as hinges, gears and clips; electric protection connectors, improved impact resistance or such as shatter-proof trims, durable housings and covers.Consumer-facing products that require a high-quality finishing such as clips, eye-wear, consumer...
Consistent Additive Manufactured Production Grade Parts
This paper shows the geometric accuracy of the Stratasys H350™ 3D printer and the capabilities of the SAF 3D printing service from TriMech for manufacturing production grade parts. The part used in this evaluation is representative of a potential end use of the H350...
Additive Manufacturing on a new level with SAF Technology
Get higher-volume production with SAF technology. The demand for plastic parts across multiple industries shows no sign of slowing down. After a slight downturn in 2020 due to the worldwide pandemic, current projections call for an 8% compound annual growth, reaching...
Should You Leverage Additive Manufacturing Services?
Additive Manufacturing Services are leading the fourth industrial revolution and are now an essential manufacturing solution for many different industries. Continuous technological advancements illuminate new applications and challenge industry leaders to rethink...
The differences between 3D Printing vs CNC Machining
A thoughtful examination of process requirements for 3D Printing vs CNC Machining. In the product development phase there are many process options for creating models, prototypes, patterns or molds. Selecting the best approach requires an appreciation for the project...
Introduction to Polymer 3D Printing Methods
The possibilities of what can be created with additive manufacturing may seem endless, but picking the right technology can be a critical factor in the success of your final part! Looking to find out what your 3D printing options are? This is the perfect crash-course...