POROUS SINTERED METAL BODIES AND METHODS OF PREPARING POROUS SINTERED METAL BODIES

Organization Name

ENTEGRIS, INC.

Inventor(s)

Virendra Warke of North Chelmsford MA (US)

Meghan Patrick of Watertown MA (US)

Devon N. Dion of Nashua NH (US)

Subhash Guddati of Singapore (SG)

Montray Leavy of Singapore (SG)

POROUS SINTERED METAL BODIES AND METHODS OF PREPARING POROUS SINTERED METAL BODIES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240342984 titled 'POROUS SINTERED METAL BODIES AND METHODS OF PREPARING POROUS SINTERED METAL BODIES

The abstract describes porous sintered metal bodies and methods of making them using additive manufacturing techniques.

• Simplified Explanation:

Porous sintered metal bodies are created through additive manufacturing methods.

• Key Features and Innovation:

- Utilizes additive manufacturing techniques to create porous sintered metal bodies. - Offers a novel approach to producing metal bodies with controlled porosity. - Enables customization and optimization of metal bodies for specific applications. - Provides a cost-effective and efficient method for manufacturing porous metal structures. - Allows for the production of complex geometries that are difficult to achieve using traditional methods.

• Potential Applications:

- Filtration systems - Catalytic converters - Heat exchangers - Biomedical implants - Aerospace components

• Problems Solved:

- Traditional methods of creating porous metal bodies are limited in terms of design flexibility. - Controlling porosity in metal structures can be challenging. - Additive manufacturing offers a solution to these limitations by enabling precise control over porosity and design.

• Benefits:

- Customizable and optimized metal bodies for specific applications. - Cost-effective production of porous metal structures. - Enhanced design flexibility and complexity. - Improved performance in various industries.

• Commercial Applications:

Porous sintered metal bodies produced through additive manufacturing can be used in a wide range of industries, including automotive, aerospace, healthcare, and manufacturing.

• Questions about Porous Sintered Metal Bodies:

1. How does additive manufacturing improve the production of porous metal bodies? 2. What are the key advantages of using porous sintered metal bodies in different industries?

1. A relevant generic question not answered by the article, with a detailed answer: How does the porosity of sintered metal bodies impact their performance in different applications? The porosity of sintered metal bodies can affect properties such as strength, permeability, and thermal conductivity, making them suitable for various applications such as filtration, catalysis, and heat transfer.

2. Another relevant generic question, with a detailed answer: What are the main challenges in traditional methods of producing porous metal bodies? Traditional methods of creating porous metal bodies often involve complex processes that limit design flexibility and control over porosity. Additive manufacturing offers a more efficient and customizable solution to these challenges.

Original Abstract Submitted

described are porous sintered metal bodies and methods of making porous sintered metal bodies by additive manufacturing methods.