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Fine Ceramics, sometimes referred to as "advanced ceramics," are engineered materials that support the development of cutting-edge technology.

What are Fine Ceramics?

What are Fine Ceramics?

What are Fine Ceramics?

Term Coined by the Founder of Kyocera

Term Coined by the Founder of Kyocera

Introduction to Fine Ceramics

Fine Ceramics at Work in the Deep Sea

Fine Ceramics at Work in the Deep Sea

Fine Ceramics at Work in the Deep Sea

Playing an Important Role in Submarine Earthquake Observation

Playing an Important Role in Submarine Earthquake Observation

Learning about Fine Ceramics

Heat (1)

Heat (1)

Heat (1)

Heat Resistance to Withstand Extreme Temperatures

Heat Resistance to Withstand Extreme Temperatures

Characteristics of Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

Key Player in Semiconductor Production

Key Player in Semiconductor Production

The Kyocera Museum of Fine Ceramics

Strength (1)

Strength (1)

Strength (1)

Extreme Hardness Surpassing that of Metals

Extreme Hardness Surpassing that of Metals

Characteristics of Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Wide Variety of Products to Support both Industry and Society

Wide Variety of Products to Support both Industry and Society

Introduction to Fine Ceramics

Fine Ceramics at Work in Space

Fine Ceramics at Work in Space

Fine Ceramics at Work in Space

Components in the Hayabusa Asteroid Probe

Components in the Hayabusa Asteroid Probe

Learning about Fine Ceramics

Fine Ceramics Use Highly Purified Raw Materials

Fine Ceramics Use Highly Purified Raw Materials

Fine Ceramics Use Highly Purified Raw Materials

Raw Materials Need to Meet Demanding Performance Requirements

Raw Materials Need to Meet Demanding Performance Requirements

Introduction to Fine Ceramics

Fine Ceramics Production Process

Fine Ceramics Production Process

Fine Ceramics Production Process

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

Introduction to Fine Ceramics

Which Part Uses Fine Ceramics?

Which Part Uses Fine Ceramics?

Which Part Uses Fine Ceramics?

Superior Writing Quality

Superior Writing Quality

Learning about Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

Rooted in Jomon Ware Used Over 10,000 Years Ago

Rooted in Jomon Ware Used Over 10,000 Years Ago

Introduction to Fine Ceramics

Electricity and Magnetism (1)

Electricity and Magnetism (1)

Electricity and Magnetism (1)

Electrical Insulation to Inhibit Electricity from Passing Through

Electrical Insulation to Inhibit Electricity from Passing Through

Characteristics of Fine Ceramics

Strength (2)

Strength (2)

Strength (2)

Rigidity—Less Elastic Deformation Compared to Metals

Rigidity—Less Elastic Deformation Compared to Metals

Characteristics of Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

Rooted in Jomon Ware Used Over 10,000 Years Ago

Rooted in Jomon Ware Used Over 10,000 Years Ago

Introduction to Fine Ceramics

Fine Ceramics at Work in Space

Fine Ceramics at Work in Space

Fine Ceramics at Work in Space

Components in the Hayabusa Asteroid Probe

Components in the Hayabusa Asteroid Probe

Learning about Fine Ceramics

Frequently Asked Questions

Frequently Asked Questions

Frequently Asked Questions

Find Answers to Questions about Fine Ceramics

Find Answers to Questions about Fine Ceramics

Introduction to Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Wide Variety of Products to Support both Industry and Society

Wide Variety of Products to Support both Industry and Society

Introduction to Fine Ceramics

Electricity and Magnetism (2)

Electricity and Magnetism (2)

Electricity and Magnetism (2)

Conductivity to Allow Electricity to Pass Through

Conductivity to Allow Electricity to Pass Through

Characteristics of Fine Ceramics

What are Fine Ceramics?

What are Fine Ceramics?

What are Fine Ceramics?

Term Coined by the Founder of Kyocera

Term Coined by the Founder of Kyocera

Introduction to Fine Ceramics

What Makes Fine Ceramics Knives so Special?

What Makes Fine Ceramics Knives so Special?

What Makes Fine Ceramics Knives so Special?

Four Advantages that Metals Cannot Offer

Four Advantages that Metals Cannot Offer

Learning about Fine Ceramics

Decorative Fine Ceramics

Decorative Fine Ceramics

Decorative Fine Ceramics

Designed to Express Deep Color and Luster

Designed to Express Deep Color and Luster

Learning about Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

Key Player in Semiconductor Production

Key Player in Semiconductor Production

The Kyocera Museum of Fine Ceramics

Heat (2)

Heat (2)

Heat (2)

Low Thermal Expansion

Low Thermal Expansion

Characteristics of Fine Ceramics

Fine Ceramics Production Process

Fine Ceramics Production Process

Fine Ceramics Production Process

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

Introduction to Fine Ceramics

Four-Frame "Manga" Comics

Four-Frame "Manga" Comics

Four-Frame "Manga" Comics

Easy to Watch, Touch and Understand Fine Ceramics

Easy to Watch, Touch and Understand Fine Ceramics

Four-Frame "Manga" Comics

Heat (3)

Heat (3)

Heat (3)

Thermal Conductivity Easily Transmits Heat

Thermal Conductivity Easily Transmits Heat

Characteristics of Fine Ceramics

Frequently Asked Questions

Frequently Asked Questions

Frequently Asked Questions

Find Answers to Questions about Fine Ceramics

Find Answers to Questions about Fine Ceramics

Introduction to Fine Ceramics

Fine Ceramics Inside the Body

Fine Ceramics Inside the Body

Fine Ceramics Inside the Body

Restores Proper Function to Joints and Skull

Restores Proper Function to Joints and Skull

Learning about Fine Ceramics

Electricity and Magnetism (3)

Electricity and Magnetism (3)

Electricity and Magnetism (3)

Dielectricity to Accumulate Electricity

Dielectricity to Accumulate Electricity

Characteristics of Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

Rooted in Jomon Ware Used Over 10,000 Years Ago

Rooted in Jomon Ware Used Over 10,000 Years Ago

Introduction to Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

Key Player in Semiconductor Production

Key Player in Semiconductor Production

The Kyocera Museum of Fine Ceramics

Fine Ceramics Production Process

Fine Ceramics Production Process

Fine Ceramics Production Process

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

Introduction to Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Wide Variety of Products to Support both Industry and Society

Wide Variety of Products to Support both Industry and Society

Introduction to Fine Ceramics

Fine Ceramics at Work in the K Computer

Fine Ceramics at Work in the K Computer

Fine Ceramics at Work in the K Computer

Contributing to 10.51 Petaflops (Quadrillion Floating-Point Operations per Second)

Contributing to 10.51 Petaflops (Quadrillion Floating-Point Operations per Second)

Learning about Fine Ceramics

What are Fine Ceramics?

What are Fine Ceramics?

What are Fine Ceramics?

Term Coined by the Founder of Kyocera

Term Coined by the Founder of Kyocera

Introduction to Fine Ceramics

Strength (3)

Strength (3)

Strength (3)

Toughness—Highly Resistant to Fracturing

Toughness—Highly Resistant to Fracturing

Characteristics of Fine Ceramics

Electricity and Magnetism (4)

Electricity and Magnetism (4)

Electricity and Magnetism (4)

Piezoelectricity to Convert Electricity into Power/Power into Electricity

Piezoelectricity to Convert Electricity into Power/Power into Electricity

Characteristics of Fine Ceramics

What are Fine Ceramics?

What are Fine Ceramics?

What are Fine Ceramics?

Term Coined by the Founder of Kyocera

Term Coined by the Founder of Kyocera

Introduction to Fine Ceramics

Fine Ceramics Contribute to a Cleaner Environment

Fine Ceramics Contribute to a Cleaner Environment

Fine Ceramics Contribute to a Cleaner Environment

Ideal for an Eco-Friendly Life with Higher Power Generation Efficiency

Ideal for an Eco-Friendly Life with Higher Power Generation Efficiency

Learning about Fine Ceramics

Fine Ceramics Production Process

Fine Ceramics Production Process

Fine Ceramics Production Process

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

Introduction to Fine Ceramics

Ceramics vs. Fine Ceramics

Ceramics vs. Fine Ceramics

Ceramics vs. Fine Ceramics

Big Differences in Raw Materials and Production Processing

Big Differences in Raw Materials and Production Processing

Introduction to Fine Ceramics

Fine Ceramics at Work in the Large Hadron Collider

Fine Ceramics at Work in the Large Hadron Collider

Fine Ceramics at Work in the Large Hadron Collider

Providing Support 100-m Underground to Control Protons and Observe Experimental Results

Providing Support 100-m Underground to Control Protons and Observe Experimental Results

Learning about Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Wide Variety of Products to Support both Industry and Society

Wide Variety of Products to Support both Industry and Society

Introduction to Fine Ceramics

Strength (4)

Strength (4)

Strength (4)

Specific Gravity (Density) to Provide Strength and Lightweight Properties

Specific Gravity (Density) to Provide Strength and Lightweight Properties

Characteristics of Fine Ceramics

Fine Ceramics at Work in Semiconductor Manufacturing Equipment

Fine Ceramics at Work in Semiconductor Manufacturing Equipment

Fine Ceramics at Work in Semiconductor Manufacturing Equipment

Required for Personal Computers/Smartphones

Required for Personal Computers/Smartphones

Learning about Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

Rooted in Jomon Ware Used Over 10,000 Years Ago

Rooted in Jomon Ware Used Over 10,000 Years Ago

Introduction to Fine Ceramics

Chemistry and Medical Care (2)

Chemistry and Medical Care (2)

Chemistry and Medical Care (2)

Biocompatibility with Internal Chemistry of the Human Body

Biocompatibility with Internal Chemistry of the Human Body

Characteristics of Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

Key Player in Semiconductor Production

Key Player in Semiconductor Production

The Kyocera Museum of Fine Ceramics

How to Make a Fine Ceramic Knife

How to Make a Fine Ceramic Knife

How to Make a Fine Ceramic Knife

Advanced Technologies Produce Fine Ceramic Knives with a Razor-Sharp Edge

Advanced Technologies Produce Fine Ceramic Knives with a Razor-Sharp Edge

Introduction to Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

The Kyocera Museum of Fine Ceramics

Key Player in Semiconductor Production

Key Player in Semiconductor Production

The Kyocera Museum of Fine Ceramics

Fine Ceramics Production Process

Fine Ceramics Production Process

Fine Ceramics Production Process

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

A Series of Complex Production Processes Are Used to Make Fine Ceramic Products

Introduction to Fine Ceramics

Chemistry and Medical Care (1)

Chemistry and Medical Care (1)

Chemistry and Medical Care (1)

Highly Resistant to Chemicals

Highly Resistant to Chemicals

Characteristics of Fine Ceramics

Fine Ceramics at Work in the ITER (International Thermonuclear Experimental Reactor)

Fine Ceramics at Work in the ITER (International Thermonuclear Experimental Reactor)

Fine Ceramics at Work in the ITER (International Thermonuclear Experimental Reactor)

Developed Technology for Large-Diameter Insulated Fine Ceramic Ring

Developed Technology for Large-Diameter Insulated Fine Ceramic Ring

Learning about Fine Ceramics

What are Fine Ceramics?

What are Fine Ceramics?

What are Fine Ceramics?

Term Coined by the Founder of Kyocera

Term Coined by the Founder of Kyocera

Introduction to Fine Ceramics

Electricity and Magnetism (5)

Electricity and Magnetism (5)

Electricity and Magnetism (5)

Magnetism to Hold Magnetic Force

Magnetism to Hold Magnetic Force

Characteristics of Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

History of Fine Ceramics

Rooted in Jomon Ware Used Over 10,000 Years Ago

Rooted in Jomon Ware Used Over 10,000 Years Ago

Introduction to Fine Ceramics

Light

Light

Light

Optical Properties

Optical Properties

Characteristics of Fine Ceramics

Fine Ceramics Inside the Body

Fine Ceramics Inside the Body

Fine Ceramics Inside the Body

Restores Proper Function to Joints and Skull

Restores Proper Function to Joints and Skull

Learning about Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Different Types of Fine Ceramics

Wide Variety of Products to Support both Industry and Society

Wide Variety of Products to Support both Industry and Society

Introduction to Fine Ceramics

Four-Frame "Manga" Comics

Four-Frame "Manga" Comics

Four-Frame "Manga" Comics

Easy to Watch, Touch and Understand Fine Ceramics

Easy to Watch, Touch and Understand Fine Ceramics

Four-Frame "Manga" Comics

Note: The definitions and classifications for Fine Ceramics on this Web site have been written for general understanding wherever possible.

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