Lithoz, the leading developer of industrial ceramic 3D printers, has looked to shape the future of multi-material 3D printing with itsCeraFab Multi 2M30system since its launch back in 2020.
Operating on the firm’s Lithography-based Ceramic Manufacturing (LCM) technology, the machine is defined by its ability to print with two materials at the same time. This includes ceramic-metal, ceramic-polymer, and ceramic-ceramic combinations.
Unlike conventional multi-material systems, however, the Multi 2M30 is designed to facilitate the budding field of functionally-graded structures. This unique direction taken by Lithoz paves the way for the development of novel applications in aerospace, electronics, energy, healthcare, and more. The machine can even be used as an open system for customers to develop their very own materials.
Beyond multi-material 3D printing
除了简单地启用多物质零件外,2M30还可以用于3D打印功能分级的结构。通过同时使用两种材料打印,该系统可以在构建组成和微观结构中逐步编程更改。从本质上讲,一部分的一部分可以用一种材料打印,另一部分则用另一种材料打印。甚至可以在单层内组合两种材料,从而导致具有不同机械和功能特性组合的组件。
So what kinds of properties are possible? Owing to Lithoz’s extensive material ecosystem, parts can be designed to be both porous and dense, bioresorbable and bioinert, hard and ductile, conductive and insulative (with both heat and electricity), magnetic and non-magnetic, transparent and opaque, and also multi-colored.
For instance, an automotive component may be required to withstand a tensile load on one end and a compressive load on the other end. A part like this would be subjected to different forces depending on the load zone, so it requires a custom combination of graded properties, such as tensile strength and toughness, to optimize its performance. Rather than 3D printing the part in a single material or printing it in two separate parts that need to be assembled, the 2M30 can simply print the two ends in different materials best suited to their roles.
Another prime contender is the electronics industry, where conductive/non-conductive builds will be of great value. A Multi 2M30 customer could 3D print the electrical contacts of a device using a conductive metal and the insulating casing using a non-conductive ceramic material, consolidating the assembly into one monolithic part without losing any functionality. Dielectric materials can also be stacked on top of each other with printed circuitry inscribed on top or even inside the component, resulting in dense 3D circuits.
One company that has already realized the enormous potential of the machine isCompound Semiconductor Applications (CSA) Catapult, which recently received the UK’s first Multi 2M30 from Lithoz. As a government-backed research institution based in Wales, CSA Catapult will use the printer to develop previously impossible multi-material components for semiconductor devices once it is operational later this year.
“The CeraFab Multi 2M30 3D printer, part of the DER Investment in state-of-the-art equipment, is a valuable addition to our advanced semiconductor integration and packaging capability,” explains Dr. Jayakrishnan Chandrappan, Head of Packaging at CSA Catapult. “This acquisition will help us develop novel 3D printed multi-material parts for high-power and high-frequency microelectronics packages, and the multi-material printing facilities will drive energy-efficient, compact and affordable packaging.”
The research carried out by CSA Catapult will help develop new applications for 3D printing which were previously unachievable, as shown by researchers at theUniversity of Leobenwho, together with Lithoz, managed to utilize the 2M30’s power to manufacture the strongest 3D printed alumina ever.
CeraFab Multi 2M30: how does it work?
The company’s LCM process, which is seen by some as the industry standard in ceramic AM, is a variation of vat photopolymerization. A build platform is lowered into a vat of ceramic-loaded liquid, otherwise known as the slurry, and is selectively exposed to light from below via a digital micromirror device (DMD), which cures the cross-section of the first layer of the build. This process is repeated, layer by layer, until the 3D part is printed. Components must also be sintered after printing.
Unlike the firm’s other 3D printers, the CeraFab Multi 2M30 is special in that it features two vats rather than just one, allowing for two materials per build with a simple switching mechanism. The system even comes with a fully automated cleaning step to avoid cross-contamination when transitioning between materials.
Using CeraFab Control software, materials can be combined within individual Z-layers, between layers with defined boundaries, between layers with gradual variations in composition, and any combination thereof for maximum design freedom.
订阅3D Printing Industry newsletterfor the latest news in additive manufacturing. You can also stay connected by following us on推特, liking us onFacebook, and tuning into the3D Printing Industry YouTube Channel.
Looking for a career in additive manufacturing? Visit3D Printing Jobs在行业中选择一系列角色。
特色图像显示了使用氧化氧化铝和氧化铝打印的齿轮3D。每个区域具有不同的强度特性。通过Lithoz的照片。
