BioElastic MB 3Dresyns: safe and elastic Monomer Based MB resins with Shore OO50
BioElastic MB 3Dresyns is a safe and elastic monomer-based resin platform for vat photopolymerization workflows requiring very soft, rubber-like mechanical behavior, high elastic recovery and resilient repeated deformation.
This collection is positioned for professional SLA, DLP and LCD/MSLA printing where soft-touch function, elastic deformation, resilience and dimensional stability after printing and post-curing are important.
Navigate by: ultra-soft elastic route, application-driven softness logic and technical performance overview.
This collection includes a very soft and elastic monomer-based photopolymer resin designed for professional additive manufacturing workflows requiring high deformation capability, high elastic recovery and resilient part behavior.
The material is especially relevant for soft interfaces, elastic components, flexible biomedical parts, seals, gaskets and ergonomic designs where the final printed part must repeatedly deform while maintaining shape fidelity.
Key features & benefits
Choose your BioElastic MB route
Use the routes below to navigate the collection by softness target, elastic behavior and technical overview.
- Very soft and elastic rubber-like mechanical behavior.
- High elastic recovery and mechanical resilience.
- Suitable for repeated deformation and shape recovery.
- Low-hazard, safety-oriented monomer-based positioning.
- Compatibility with SLA, DLP and LCD 3D printing workflows.
Typical applications
Typical use scenarios across the collection
This collection is suitable for workflows where the final part must behave like a very soft elastic material rather than a standard flexible resin.
- Soft prototypes: concept parts requiring highly compliant tactile behavior.
- Seals and gaskets: elastic interfaces for compression and deformation-oriented designs.
- Soft interfaces: contact surfaces requiring cushioning or comfort-oriented response.
- Flexible biomedical parts: controlled professional workflows where a very soft material route is required.
- Wearable and ergonomic parts: soft-touch components for R&D and product-development workflows.
Why choose this collection
How to choose the BioElastic MB route
Select this collection when the main objective is very soft, highly elastic and resilient behavior with high recovery after repeated deformation.
- Need a very soft rubber-like printed part → choose 3Dresyn BioElastic O50 MB Monomer Based
- Need repeated deformation with shape recovery → choose the O50 MB route
- Need seals, gaskets or soft interfaces → start with OO50 MB and validate the final geometry and cure conditions
- Need a harder elastomer or a tougher flexible route → this collection is likely too soft and should be compared against a different family
- Prioritise maximum softness → start with OO50 MB
- Prioritise rubber-like feel → start with OO50 MB
- Prioritise elastic recovery and resilience → validate O050 MB under the exact printer, wash and post-cure workflow
Decision tree summary
Use this simplified logic before detailed printer qualification and application validation.
- Need a very soft elastic route → O050 MB
- Need seals, gaskets or soft interfaces → O050 MB
- Need reliable repeated deformation and recovery → O050 MB with workflow-specific validation
- Need final biocompatibility and application suitability → validate the selected route under the exact printer, processing and regulatory conditions
Then confirm the final route under the intended printer technology, exposure settings, washing method, post-curing protocol and application-specific qualification workflow.
Products in this collection
Shore O050 monomer-based elastic biocompatible grade
For workflows requiring a very soft, highly elastic and resilient monomer-based resin with rubber-like behavior and high elastic recovery.
- Elastic biocompatible monomer-based 3D printing resin with rubber-like behavior.
- Designed to provide high elastic recovery and mechanical resilience.
- Optimized for repeated deformation while maintaining shape fidelity and dimensional stability after printing and post-curing.
- Suitable for professional vat photopolymerization workflows using SLA, DLP and LCD technologies.
- Compatible with 385–405 nm curing systems.
Technical overview table
Workflow-dependent performance
Mechanical softness, elastic recovery, dimensional stability, water uptake and final part behavior depend on the interaction between material selection, printer calibration, exposure strategy, washing protocol, post-curing conditions and part geometry.
Successful implementation therefore requires alignment between material choice, geometry design, printing process and final application-specific validation.
| Material | Hardness route | Chemistry route | Primary role | Main behavior | Technology | Typical applications | Key technical positioning |
|---|---|---|---|---|---|---|---|
| 3Dresyn BioElastic OO50 MB Monomer Based | Shore OO50 | Monomer-based | Very soft elastic biocompatible resin for professional vat photopolymerization | Rubber-like elasticity, high elastic recovery, high resilience and repeated-deformation capability | SLA / DLP / LCD / vat photopolymerization / 385–405 nm | Elastic medical device components, seals, gaskets, soft interfaces, flexible biomedical parts and functional elastic prototypes | Tensile strength <1 MPa, Young´s modulus <1 MPa, elongation at break <500 %,, water absorption <1.5% |
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Portfolio overview
A focused ultra-soft elastic platform rather than a broad elastomer page
This collection is compact and clearly structured around a single ultra-soft monomer-based route for applications requiring very soft and resilient printed parts.
- 3Dresyn BioElastic OO50 MB Monomer Based covers the very soft rubber-like route.
- The collection is especially oriented to soft interfaces, seals, gaskets and elastic functional prototypes.
- It is a focused material platform for users who already know they need a very soft output rather than a medium-hard flexible resin.
Workflow note
The right BioElastic MB result depends on the final workflow, not only on the nominal softness
These materials are formulation systems whose final performance is workflow-dependent. Elastic behavior, recovery, geometry retention and dimensional stability depend on the full manufacturing sequence rather than on the liquid resin alone.
In practice, the correct path is to define the final application first, then validate the selected route under the exact printer, exposure settings, washing method, post-curing protocol and intended-use requirements.
The final suitability of printed parts must always be validated by the user according to the specific application, processing conditions and applicable regulatory requirements.
Technical and commercial support
Documentation, technical selection help and workflow support
Use the resources below to move from grade preselection to printer qualification, workflow validation and broader technical support.
Final CTA
Select the BioElastic MB route and validate the final qualified workflow
Use the route-based navigation above to review the ultra-soft elastic positioning, compare the technical overview, and move forward with application-specific validation for very soft, resilient monomer-based printed parts.
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From prototyping to industrial production, performance depends on materials, calibration and process control