LAMINATE AND METHOD FOR MANUFACTURING LAMINATE

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Inventor(s)

LAMINATE AND METHOD FOR MANUFACTURING LAMINATE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18596669 titled 'LAMINATE AND METHOD FOR MANUFACTURING LAMINATE

Simplified Explanation

The patent application describes a laminate that prevents corrosion of a metal pattern used as a resonator for electromagnetic waves in the terahertz band, along with a method for manufacturing the laminate.

The laminate includes a dielectric film, a metal pattern acting as a resonator for terahertz electromagnetic waves, and an organic film with low moisture permeability.
The organic film has a moisture permeability of 3000 g/(m²·24 hr) or less under conditions of 40°C temperature and 90% relative humidity.

Key Features and Innovation

Laminate design to prevent corrosion of metal patterns in terahertz band resonators.
Use of dielectric film, metal pattern, and organic film with low moisture permeability.
Specific moisture permeability requirement for the organic film to ensure protection against corrosion.

Potential Applications

The technology can be used in various terahertz applications such as communication systems, security scanners, and medical imaging devices.

Problems Solved

Corrosion of metal patterns in terahertz band resonators.
Maintaining the performance and longevity of terahertz devices in high humidity environments.

Benefits

Extended lifespan of terahertz devices.
Improved reliability and performance in humid conditions.
Cost-effective solution for preventing corrosion in terahertz applications.

Commercial Applications

Title: "Corrosion-Resistant Laminate for Terahertz Devices"
The technology can be applied in the manufacturing of terahertz communication systems, security scanners for airports, and medical imaging equipment.
Market Implications: Increased demand for reliable terahertz devices in various industries due to enhanced corrosion resistance.

Prior Art

Research on materials with low moisture permeability for protecting electronic components in high humidity environments.

Frequently Updated Research

Ongoing studies on advanced materials for terahertz applications and corrosion prevention in electronic devices.

Questions about Laminate for Terahertz Devices

What are the key components of the laminate described in the patent application?

The key components are a dielectric film, a metal pattern acting as a resonator for terahertz waves, and an organic film with specific moisture permeability.

How does the technology address the issue of corrosion in terahertz devices?

The technology prevents corrosion by using an organic film with low moisture permeability, which protects the metal pattern from environmental factors.

Original Abstract Submitted

The present invention provides a laminate capable of suppressing corrosion of a metal pattern serving as a resonator with respect to electromagnetic waves in a terahertz band, and a method for manufacturing a laminate. The laminate of the present invention includes a dielectric film, a metal pattern serving as a resonator with respect to electromagnetic waves in a terahertz band, which is disposed on at least one surface side of the dielectric film, and an organic film in which a moisture permeability under an environment of a temperature of 40° C. and a relative humidity of 90% is 3000 g/(m·24 hr) or less, which is disposed on the metal pattern.