Quickparts USA

When manufacturing durable, functional end-use parts, selecting the right 3D printing technology can make a huge difference in performance, efficiency, and cost. Two of the most widely used methods today are Selective Laser Sintering (SLS) and Multi Jet Fusion (MJF). While both rely on powdered nylon materials and produce high-strength components, each technology offers distinct advantages depending on your project’s priorities—whether that’s precision, durability, finish, or scalability. This blog is originally published here: https://quickparts.com/sls-vs-mjf-which-is-better-for-tough-end-use-parts/  

When it comes to building parts for the aerospace industry, you know how important it is to find the perfect mix of strength, precision, and weight. That’s where cast urethane steps in. Whether you’re working on prototypes, low-volume production, or complex geometries, this method offers flexibility and performance that can really change the game. In this blog, we’ll walk through what makes cast urethane a go-to solution for aerospace applications—especially when paired with SLA 3D printing services. This blog is originally published here: https://quickparts.com/cast-urethane-for-aerospace-lightweight-complex-and-low-volume-ready/  

Defining injection molding - Injection molding is a fabrication procedure for producing parts through injecting molten material into a mold. It is widely utilised for making plastic parts in high volumes with tight tolerances. This technique assures efficiency, repeatability and consistency. For more information visit here: https://issuu.com/usaquickparts/docs/precision_in_every_part_the_power_of_injection_mo  

Selective Laser Sintering or SLS provides a strong combination of strength, speed, and design freedom for modern production and prototyping. Why should you select SLS 3D printing? - No support structures required - Complex geometries are easy to design. High design freedom - Ideal for complex designs and internal aspects. Fast turnaround - Rapid production with lesser post-processing. For more information visit here: https://justpaste.it/e6mbw

Choosing the right 3D printing material for your project can be a game-changer. Whether you’re prototyping, creating end-use parts, or just experimenting, the material you choose plays a crucial role in the quality, durability, and performance of your final product. In this guide, we’ll help you understand how to select the right 3D printing material for your needs. Understanding 3D Printing Materials 3D printing materials come in many different types and forms, from plastics to metals. They each have unique properties that make them suitable for specific applications. Some materials are ideal for flexibility, while others offer high strength or heat resistance. Here’s a look at some of the most commonly used 3D printing materials. Common Types of 3D Printing Materials PLA (Polylactic Acid) : This is one of the most commonly used 3D printing materials. PLA is biodegradable and is great for beginners. It works well for prototypes and non-functional parts. ABS (Acrylonitrile Butadiene S...

  3D printing has revolutionized the way products are designed, developed, and tested. When it comes to creating high-detail prototypes , SLA (Stereolithography) 3D printing is often considered the best choice. Known for its precision and smooth surface finishes, SLA 3D printing allows manufacturers, designers, and engineers to create prototypes that closely resemble the final product. In this guide, we’ll explore why SLA is the gold standard for high-detail prototypes. What is SLA 3D Printing? SLA (Stereolithography) is one of the earliest 3D printing technologies and continues to be highly valued in industries that require detailed prototypes . It works by using liquid resin that is cured layer by layer with the help of an ultraviolet (UV) laser. This process allows SLA to create parts with incredible detail and smooth finishes that many other 3D printing methods struggle to match. In simple terms, SLA 3D printing uses a laser to solidify liquid resin, building the object fro...