Ceramic, metal & polymer powder feedstock slurries for injection in 3D printed molds
Powder feedstock slurries for injection into 3D printed molds, supporting controlled flow and filling behavior, stable dispersion, process consistency and indirect manufacturing workflows with downstream debinding and sintering depending on system. :contentReference[oaicite:1]{index=1}
This collection groups the 3Dresyns® feedstock slurries and eco binders for ceramic, metal, polymer and glass powder workflows in 3D printed molds, supporting indirect additive manufacturing routes, powder-based shaping and downstream thermal processing. :contentReference[oaicite:2]{index=2}
Key features & benefits
- Powder feedstock slurries for injection into 3D printed molds
- Controlled flow and filling behavior
- Stable dispersion and process consistency
- Compatibility with debinding and sintering routes, depending on system
- Indirect manufacturing integration
These are the key benefits stated on the collection page. :contentReference[oaicite:3]{index=3}
Typical applications
- Ceramic and metal injection workflows, including CIM / MIM-related routes
- Powder-based shaping using printed tooling
- Debinding and sintering process development
- Complex shaped parts made via indirect AM routes
These are the typical applications stated on the collection page. :contentReference[oaicite:4]{index=4}
Why choose this collection
Designed for indirect powder shaping
This collection is built for workflows where the printed mold defines the geometry and the powder slurry or binder system enables the green body for later debinding and sintering or related downstream processing. This is an inference grounded in the collection description and product set. :contentReference[oaicite:5]{index=5}
Combines binders and ready feedstocks
The visible portfolio includes both eco binder systems and pre-defined ceramic or metal slurries, making it useful for users who need either a binder route or a more application-oriented starting feedstock. :contentReference[oaicite:6]{index=6}
Relevant for sintering-oriented workflows
The collection filters explicitly emphasize Ceramics Metals and Sintering, reinforcing its positioning around thermal post-processing rather than direct final-part polymer use. :contentReference[oaicite:7]{index=7}
Products in this collection
The collection currently shows these four visible products. :contentReference[oaicite:8]{index=8}
Technical overview
| Feedstock / binder* | Properties | Process role | Material family | Debinding route | Sintering relevance | Special function |
|---|---|---|---|---|---|---|
| EB1 | Eco Binder for water debinding and sintering of ceramic, metal and polymer powder slurries | Binder route for powder slurry workflows | Ceramic / metal / polymer powders | Water debinding | High | Eco binder for multi-powder systems |
| CS YSZ1 | Ceramic slurry based on yttria-stabilized zirconia | Ready ceramic feedstock route | Ceramic | System dependent | High | Yttria-stabilized zirconia route |
| MS Ti1 | Metal slurry based on titanium | Ready metal feedstock route | Metal | System dependent | High | Titanium slurry route |
| EB2G | Eco Binder for water debinding and sintering of glass powder slurries | Binder route for glass powder workflows | Glass powders | Water debinding | High | Eco binder for glass slurry systems |
Mobile: scroll horizontally to view all columns. The first column remains visible while scrolling.
Portfolio overview
Eco binder routes
EB1 and EB2G define the binder side of the collection, with explicit positioning around water debinding and later sintering of multi-powder or glass powder systems. :contentReference[oaicite:9]{index=9}
Ready ceramic and metal slurry routes
CS YSZ1 and MS Ti1 provide ready slurry routes for ceramic and metal shaping in printed molds, which is useful when users want a more direct starting point than a binder-only approach. :contentReference[oaicite:10]{index=10}
Strong fit for CIM / MIM-type development
The collection’s explicit reference to CIM / MIM-related workflows and sintering development makes it especially relevant for indirect shaping routes where green-part behavior and downstream thermal processing are central. :contentReference[oaicite:11]{index=11}
Workflow note
The right route depends mainly on whether you need a binder platform or a more application-specific slurry.
Choose eco binders when you want to build or adapt a powder slurry workflow around water debinding and sintering. Choose ceramic or metal slurries when you want a more direct feedstock starting point for shaping in printed molds.
Technical and commercial support
Selection and technical help
Need help selecting the right feedstock slurry or eco binder?
This collection is designed to help users move between ceramic, metal, polymer and glass powder shaping routes for injection in 3D printed molds and downstream sintering workflows.
For technical guidance or custom developments, use technical support.
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From prototyping to industrial production, performance depends on materials, calibration and process control