LuxCreo Provides the Industrialized Ultra-fast 3D Printer for Engineering Printing
LuxCreo's DLP Industrialized Ultra-Fast 3D Printer - Lux 3 and Lux 3L, Designed to provide versatile performance with fast, functional prototyping capabilities and high-throughput engineering production.
LuxCreo's Engineering Products
Form Cycling Accelerates Development and Production of New 3D Printed Saddle with LuxCreo Smart Factory
LuxCreo Provides the Materials Designed for High Production Manufacturing
LuxCreo’s engineering Resins include:
LuxCreo's elastic resin is an ideal material for rapid prototyping and elastic processing parts such as sports shoe midsoles, automotive interiors and industrial suspensions. Based on LEAPTM nano-release technology, the component molding speed is fast, with excellent dimensional accuracy and detail resolution.
LuxCreo's Tough resin is an ideal material for rapid prototyping and small batch test parts processing such as wind tunnel testing, electrical enclosures, tooling fixtures and automotive interior and exterior trim. Based on LEAPTM nano- release technology, the components are formed quickly, post-processing is easy, and it has excellent dimensional accuracy and detail resolution.
LuxCreo's patented 3D LEAP technology is energy efficient. By eliminating the injection molding in our production process, we are able to cut down on costs and minimize potential setbacks in cases where the mold isn't created in time. Additionally, LuxCreo is committed to further increase the percentage of bio-based materials that we use in printing our products.
Learn more from our blogs
LuxCreo introduces two new open 1K functional elastomers for prototyping and production of 3D printed insoles and bike saddles.
EM 1K-H and EM 1K offer manufacturers better performance, color, price options, and access to LuxCreo Smart Factory Production Services supporting brands such as ASICS and PUMA. EM 1K-H and…
3D printing or additive manufacturing is transforming the manufacturing sector. The technology simplifies the manufacturing process by eliminating tooling and enabling production using a wide range of materials. The cost-efficiency…
This article will discuss how sustainable additive manufacturing is during the normal supply chain, disrupted supply chain conditions, and what drives this sustainability and resilience.
Product designers and engineers who consider CNC machining vs. 3D printing need to evaluate the capabilities, lead time, and cost of each production workflow before deciding on the best course.…
Advancements in 3D printing technology have continued to revolutionize the medical field as its role in modern medicine gradually becomes more commonplace. 3D printing is becoming a more accessible and…
Historically, 3D printing has long held a close association with rapid prototyping. When 3D printers first entered the market in the early 1980s, companies primarily used them as rapid prototyping…
Advancements in 3D printing, along with product complexity and different types of available processes have made it challenging to select the right 3D printer for high-volume manufacturing. Digital Light Processing (DLP) and LCD are two commonly implemented resin-based 3D printing technologies. The following compares DLP vs. LCD 3D printers, their unique features, and the subtle differences.
Smart Factory3D printing enables companies to reduce labor steps, increase design freedom, and create opportunities for customization—here’s how:
3D printing can produce customized tools for traditional manufacturing processes and carry several advantages over standard tooling. When quickly replacing or customizing a tool, the right 3D printing solution will provide a fast, on-demand production solution.
When it comes to sports and sports medicine, using high-performance products can enhance athlete performance and recovery. 3D printing in sports and sports medicine products brings more customization and durability…