Stereolithography (SL) is an industrial 3D printing process used to create concept models, cosmetic prototypes, and complex parts with intricate geometries in as fast as 1 day. A wide selection of materials, extremely high feature resolutions, and quality surface finishes are possible with SL.
3D Printing for End-Use Production
Industrial-grade 3D printing has a solid reputation as a reliable prototyping process, but is now emerging as a viable production option. This white paper offers an analysis of additive manufacturing technologies as end-use production methods. What you will learn: The case for 3D-printed production parts Comparing 3D printing technology Making metal Polymer potential
3D Printing Technologies for Protoyping and Production
There are many different additive manufacturing processes to choose from, each with its own advantages and disadvantages. Our white paper examines the various 3D printing technologies—SL, SLS, DMLS, FDM, PolyJet and others—being used by today’s product designers and engineers to build better products faster.
Selecting the Right Material for Industrial 3D Printing
This industrial 3D printing white paper explores the properties of thermoplastic and metal materials available with direct metal laser sintering, selective laser sintering, and stereolithography technologies. It also includes a quick-reference guide of material attributes that can steer you toward the proper grade.
Designing for Moldability: Fundamental Elements
Whether you’re new to injection molding or a veteran of manufacturing, our comprehensive Designing for Moldability white paper is a quick reference guide to wall thicknesses, surface finishes, tolerances, materials and other thermoplastic molding insights. It’s a thorough look at injection molding that might just provide a few tips to help you make better prototype or production parts.
Thermoplastic Material Selection for Injection Molding
There are more than 85,000 commercial options for plastic materials listed in materials databases. Needless to say, narrowing down that extensive list of materials can sometimes seem like a formidable task. Our comprehensive white paper provides a highly technical observation of thermoplastic resins and their properties for engineers who want to quantitatively analyze a part; determine loads, stresses, strains and environments; and make material decisions based on the analysis.
Data, Digitla Threads, and Industry 4.0
The manufacturing industry is undergoing a revolution as automation software and new technologies have made processes leaner and innovation faster. This movement is often referred to as Industry 4.0 and it’s changing the entire product development cycle. In this white paper, we share how companies are rethinking traditional manufacturing in order to accelerate development, reduce risk, and drive innovation.
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