Non-Polymeric3D
Revolutionizing Additive Manufacturing of Metallic and Ceramic Parts
Explore our cutting-edge metallic and ceramic powders and feedstocks for additive manufacturing, designed to elevate your production capabilities and quality.
We make printing metallic and ceramic parts as simple as printing plastic
Objects we printed from our bimodal feedstocks using a simple FDM printer, we modified into a Fused granulate fabrication (FGF) 3D printer
Feed materials: 316L, Al-Cu, Inconel 718, Fe-Cu, Al2O3
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Our technology
We invented and developed a new metallic and ceramic powder manufacturing technology.
Our metallic and ceramic powders are composed of unique particles that, when mixed with binder polymer, form highly flowable feedstocks that are flawlessly printed into high-quality metallic and ceramic parts using FGF printers (which are made for printing plastic materials).
Moreover, our cutting-edge powder-making technology is the first to enable the dispersion side-by-side of different metals and alloys to compose endless new metallic and ceramic raw materials for additive manufacturing. Yes, we can easily make a highly flowable feedstock from stainless steel, titanium, copper, aluminum, or any known metal or alloy powder and feedstock already on the market. But how about a feedstock containing a mix of such materials? We can disperse several different metallic or ceramic materials and provide highly flowable feedstocks for FGF printers, which no one else can manufacture, providing you with the optimal material for your metallic and ceramic parts specifications and performance compliance. For example, if such mixed material best fits your parts' performance requirements, we can produce a feedstock consisting of 50% stainless steel + 15% titanium + 15% copper + 20% aluminum. This enables us to form and offer customers innovative, new materials tailored to their use that combine and express the characteristics of the metals in the mixed material, providing your parts with the optimal physical characteristics such as heat tolerance, heat conductivity, strength, weight, electrical conductivity, magnetism, etc.
Mixing two or more metals to form a stronger material is an old paradigm used by man, dating back 5000 years, when copper alloyed with tin (CuSn) produced a new metallic material called bronze, which was harder and more durable than other metals available at the time. We are experts in providing new metallic and ceramic mixes in the form of feedstocks for use with simple FGF printers, Powder Injection Molding (MIM, and CIM)
Aims:
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Simplify and reduce the costs of metallic and ceramic parts made by Additive Manufacturing.
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Offer new innovative materials.
Example of new printable material compositions we can make
Dog bone-shaped parts made using Metal Injection Molding (MIM) from our feedstocks
1. Copper (Cu) feedstock
2. 50 wt % Cu + 50 wt % 316L feedstock*
3. 10 wt % Сu + 90 wt % Fe feedstock*
4. 316L feedstock
*We are the only ones who can make such feedstock compositions
Utilizing our products
It's as easy as printing plastic. Remove the binder polymer chemically or thermally, and then thermally sinter.
Our feedstocks can be used in every industry where metal and ceramic parts are made and used.
•Solar energy
•Aerospace
•Automotive
•Oil & gas
•Healthcare
•Food service
•Defense & HLS
•Jewelry
•Tooling
•Environmental
•Architecture
•Science
•Electronics
•Gaming
Inconel 625
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Aluminum Oxide
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Inconel 718
A prototype of a thruster like those used in the NASA R-4D Apollo Service Module, we printed using our modified FDM printer from our proprietary bimodal materials.
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Originally, the part was made of Stainless Steel and Hastelloy. We made it from more durable materials using Inconel 718, Inconel 625, and Aluminum Oxide, which, in our opinion, are better but were not available in the '60s.
Awards
We won the 2022 MassChallenge Israel startup competition
We were selected by Hello Tomorrow as a 2025 Deep Tech Pioneer out of 4,600 applications from 120 countries
