DISCRETE MACROSCOPIC METAMATERIAL SYSTEMS

Organization Name

Massachusetts Institute of Technology

Inventor(s)

Benjamin Jenett of Cambridge MA (US)

DISCRETE MACROSCOPIC METAMATERIAL SYSTEMS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18746851 titled 'DISCRETE MACROSCOPIC METAMATERIAL SYSTEMS

Simplified Explanation:

This patent application describes a construction system for mechanical metamaterials that is based on discrete assembly of modular, mass-produced parts. The system allows for the creation of various mechanical metamaterial properties, such as rigid, compliant, auxetic, and chiral structures, through a consistent assembly process across different part types.

Key Features and Innovation:

• Construction system for mechanical metamaterials based on discrete assembly of modular parts
• Enables creation of various mechanical metamaterial properties, including rigid, compliant, auxetic, and chiral structures
• Consistent assembly process across different part types
• Incremental nature of assembly allows for efficient and low-cost production
• Lattice structure constructed of multiple part types enables creation of heterogenous macroscopic metamaterial structures

Potential Applications: The technology can be applied in various industries such as aerospace, automotive, robotics, and construction for creating lightweight, strong, and adaptive structures.

Problems Solved: This technology addresses the limitations of traditional manufacturing methods in producing complex mechanical metamaterial structures efficiently and cost-effectively.

Benefits:

• Enables the creation of a wide range of mechanical metamaterial properties
• Cost-effective production beyond the scale of 3D printing
• Versatile applications in different industries

Commercial Applications: The technology can be utilized in industries such as aerospace for creating lightweight yet strong components, in automotive for improving fuel efficiency, in robotics for developing adaptive structures, and in construction for constructing innovative building designs.

Prior Art: Readers can start their search for prior art related to this technology by looking into patents and research papers on mechanical metamaterials, modular construction systems, and lattice structures.

Frequently Updated Research: Researchers are constantly exploring new ways to enhance the properties and applications of mechanical metamaterials through advancements in modular construction systems and lattice structures.

Questions about Mechanical Metamaterials: 1. How do mechanical metamaterials differ from traditional materials in terms of properties and applications? 2. What are the key challenges in the production and implementation of mechanical metamaterials in various industries?

Original Abstract Submitted

A construction system for mechanical metamaterials based on discrete assembly of a finite set of modular, mass-produced parts. A modular construction scheme enables a range of mechanical metamaterial properties to be achieved, including rigid, compliant, auxetic and chiral, all of which are assembled with a consistent process across part types, thereby expanding the functionality and accessibility of this approach. The incremental nature of discrete assembly enables mechanical metamaterials to be produced efficiently and at low cost, beyond the scale of the 3D printer. Additionally, a lattice structure constructed of two or more rigid, compliant, auxetic and chiral part types enable the creation of heterogenous macroscopic metamaterial structures.