FORMULATIONS USABLE IN ADDITIVE MANUFACTURING OF A THREE-DIMENSIONAL OBJECT MADE OF A SOFT MATERIAL

Organization Name

Stratasys Ltd.

Inventor(s)

Mazi Amiel-levy of Petach-Tikva (IL)

Shiran Lupo of Yokneam Ilit (IL)

Tal Ely of Rehovot (IL)

Daniel Dikovsky of Ariel (IL)

FORMULATIONS USABLE IN ADDITIVE MANUFACTURING OF A THREE-DIMENSIONAL OBJECT MADE OF A SOFT MATERIAL - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240263006 titled 'FORMULATIONS USABLE IN ADDITIVE MANUFACTURING OF A THREE-DIMENSIONAL OBJECT MADE OF A SOFT MATERIAL

The patent application pertains to modeling material formulations and formulation systems for use in additive manufacturing of three-dimensional objects with a shore hardness lower than 10 and/or a shore 00 hardness lower than 40 when hardened. The application also covers additive manufacturing processes utilizing these formulations and formulation systems, as well as the three-dimensional objects produced as a result.

• The innovation involves creating material formulations for additive manufacturing that result in objects with specific hardness levels.
• The formulations and systems are designed to produce objects with a shore hardness lower than 10 and/or a shore 00 hardness lower than 40.
• The additive manufacturing processes using these formulations enable the production of three-dimensional objects with the desired hardness properties.
• The technology opens up possibilities for creating objects with varying levels of hardness for different applications.
• This innovation could lead to the development of customized products with specific hardness requirements.

Potential Applications

The technology could be applied in industries such as aerospace, automotive, and medical, where the hardness of the manufactured parts is crucial. It could be used to create prototypes, tooling, and end-use parts with specific hardness characteristics. The formulations could also find applications in the production of consumer goods and electronics.

Problems Solved

The technology addresses the need for additive manufacturing materials that can produce objects with precise hardness levels. It provides a solution for industries requiring parts with specific hardness properties. The innovation offers a way to customize the hardness of 3D printed objects according to the application requirements.

Benefits

Customization of hardness levels in 3D printed objects. Enhanced performance and durability of manufactured parts. Potential cost savings in production processes by using tailored material formulations.

Commercial Applications

Title: Customizable Hardness 3D Printing Technology for Various Industries The technology could be utilized in the production of aerospace components, automotive parts, and medical devices. It has the potential to revolutionize the manufacturing of consumer goods and electronics with tailored hardness properties. The market implications include increased efficiency in production processes and the ability to meet specific industry requirements.

Questions about the Technology

1. How does the technology impact the customization of 3D printed objects' hardness levels?

  - The technology allows for precise control over the hardness of 3D printed objects, enabling customization for specific applications.

2. What are the potential cost-saving benefits of using tailored material formulations in additive manufacturing?

  - By using formulations that produce objects with the desired hardness properties, manufacturers can reduce material waste and improve production efficiency.

Original Abstract Submitted

modeling material formulations and formulation systems usable in additive manufacturing of a three-dimensional object, featuring, when hardened, a shore a hardness lower than 10 and/or a shore 00 hardness lower than 40, are provided. additive manufacturing processes utilizing these formulations and formulation systems, and three-dimensional objects obtainable thereby, are also provided.