Azoth’s Metal Binder Jetting (MBJ) excels in producing intricate small metal components with remarkable resolution. Unlike other metal 3D printing methods, Azoth’s MBJ delivers an exceptional as-printed surface finish, typically achieving a roughness average (Ra) of around 6 micrometers. This results in a surface texture reminiscent of fine sandpaper, providing both tactile appeal and a matte finish. However, what if …
Plastic 3D Printing: Technology Overview
Filaments? Resins? Powders? The world of plastic 3D printing can indeed feel confusing and overwhelming. Within it, a multitude of technologies exists, each offering distinct advantages and unique limitations. While the foundational concept of constructing a part layer by layer remains consistent, nearly every other aspect can vary significantly. Factors such as mechanical properties, part resolution, maximum size, cost, and …
Understanding Stainless Steels: 316-L and 17-4PH
At Azoth, stainless steel takes the lead as our workhorse material, and rightfully so! From high end luxury goods, safety critical automotive parts, and almost everything in between – stainless steel is an incredibly versatile and cost-effective material. This article will provide you with a practical understanding of what stainless steel is and define its key attributes, benefits, and applications. …
What Really Is Metal Material Jetting?
Metal Material Jetting (MMJ), also known as the trademarked term Nano Particle Jetting, is a groundbreaking 3D printing method that utilizes nano-sized metal particles contained in a liquid suspension. Following deposition, the liquid suspension quickly evaporates, leaving compact metal particles with a minimal amount of binder. Like metal binder jetting, the as-printed parts undergo a debinding and sintering process to …
Strategies for Material Efficient Designs
“Perfection is achieved, not when there is nothing more to add, but when there is nothing left to take away.” -Antoine de Saint-Exupéry, French writer and aviator Design and manufacturing are inextricably linked. The brilliance of a design is rendered useless if it lacks feasibility in manufacturing. A skilled designer consistently considers the practical aspects of production. Can I use …
Metal Binder Jetting vs. Metal Injection Molding
Powder metallurgy, the process of converting fine powders into usable parts through pressure and sintering, has been used in mainstream manufacturing for over a hundred years. Techniques, materials, and processes have all steadily improved as the adoption of the technology has gained significant popularity. The figure below illustrates the range of processes available to modern designers. Among powder metallurgy techniques, …
Five Reasons to Select Metal Binder Jetting with Azoth
The world of 3D printing (formally known as additive manufacturing) is a diverse landscape that encompasses a variety of technologies, materials, and equipment. To a newcomer, it can be quite overwhelming. This article will help you to navigate the terrain by guiding you through binder jet 3D printing and its top five benefits. What is Metal Binder Jetting? Metal binder …