セラミック二酸化チタン
Ceramic Titanium Dioxide is a high-purity TiO₂ material designed for advanced ceramic production. Due to its superior chemistry, fine granularity, and superior permittivity and optics, it has been widely used in the field of electrical ceramics, structural ceramics, and special technological ceramics.
What Is Ceramic Titanium Dioxide?
Ceramic Titanium Dioxide is a high-purity, functionally engineered TiO₂ raw material specifically developed for application in advanced ceramic manufacturing processes. Unlike commodity TiO₂ grades utilised in pigment applications, Ceramic Titanium Dioxide is produced with strictly controlled chemical purity, accurate particle size distribution, and optimised crystal structure to satisfy the demanding performance requirements of technical and functional ceramic production. In ceramics manufacturing, TiO₂ fulfils multiple critical roles depending on the specific application. It acts as a functional additive that adjusts the dielectric, optical, and mechanical properties of ceramic bodies, serves as a sintering aid that facilitates densification and grain growth during high-temperature firing, and functions as a primary raw material in the synthesis of titanate-based ceramic compounds such as barium titanate (BaTiO₃) and lead zirconate titanate (PZT). Ceramic-grade TiO₂ is applied across a wide range of fields, including electronic ceramics, piezoelectric components, structural ceramics, refractory materials, and speciality functional ceramic products catering to the electronics, energy, and industrial engineering sectors.
Key Advantages of Titanium Dioxide for Ceramics
- Exceptional Chemical Purity for Functional Performance — High purity ceramic titanium dioxide reduces the disturbance of impurities in the process of sintering and the forming of the phase, guaranteeing the predicted permittivity, piezo-modulus and mechanical performance of the final ceramic parts - essential for the use of electronics and electrical ceramics.
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Precise Particle Size Control for Uniform Sintering — Small grain size distribution facilitates uniform filling and uniform density at high temperature firing, decreasing porosity, increasing mechanical strength and providing reliable dimension precision for complicated ceramic forms and parts.
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Superior Dielectric and Piezoelectric Properties — As a core raw material in titanate ceramic synthesis, TiO₂ directly contributes to the high dielectric permittivity and electromechanical coupling performance of capacitor ceramics, piezoelectric sensors, and actuator components employed in advanced electronics and precision engineering applications.
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Excellent Thermal and Chemical Stability — セラミック二酸化チタン keeps the structure and chemistry intact at the very high temperatures of the ceramic firing process, preventing undesirable phase shifts and chemical reactions which may affect the performance of the finished sintered ceramic product.
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Versatility Across Diverse Ceramic Systems — From MLCCs and piezo sensors to photocatalysis ceramic paint and refractory elements, the ceramic layer provides uniform properties over a broad variety of ceramic formulas and high temperature fabrication techniques.
業界が直面する課題
Achieving Consistent Chemical Purity Across Production Batches
Even a tiny amount of impurities in Ceramic Titanium Dioxide can significantly alter dielectric constants, sintering behaviour, and mechanical properties, making batch-to-batch purity consistency a critical and demanding quality control requirement.
Controlling Particle Size Distribution for Uniform Sintering
Inconsistent TiO₂ granularity distribution results in non-uniform powder filling, irregular grain growth, and void formation in the sintering process – a direct impact on the mechanical strength and dimension accuracy of the final product.
Managing Phase Stability During High-Temperature Firing
To avoid undesirable structural changes that reduce the function of the functional ceramic properties, it is important to control the phase stability of the ceramic during the firing of the ceramic.
製品概要
アルミナ
AS-CE100
アルミナ
AS-CE500
Specific Use Scenarios — Ceramic Titanium Dioxide
Electronic Multilayer Ceramic Capacitors (MLCCs)
Ceramic Titanium Dioxide is one of the main ingredients for synthesizing BaTiO ₂, which is used as the main medium for the production of multilayered ceramic capacitors. Precise TiO₂ purity and grain dimensions are crucial in this phase because they have a direct impact on the permittivity, capacitive stability and reliability of MLCCs for smart phones, cars and IC boards throughout the world.
Piezoelectric Ceramic Components
Ceramic Titanium Dioxide is a necessary precursor for producing PZT and other piezo-ceramic compounds for sensing, actuating devices, ultrasound transducers, and ink-jet printing heads. Consistent TiO₂ chemistry and stoichiometry are essential for the synthesis of piezo-ceramic, since a small component variation has a significant influence on the mechanical coupling factor and the long term performance of a precise piezo.
Ceramic Glaze and Surface Coating Applications
TiO₂ is extensively used as a function additive in ceramic glazes for tiles, bathroom, and decoration porcelain, where it adds whiteness, opacity, and surface brightness to the fired glaze. Their high refractive index increases the reflectance of the glaze and the depth of vision, whereas their chemical stability in the burning of the hot glaze guarantees uniform colour growth and luster throughout large scale construction and decoration.
Photocatalytic Ceramic Products
Ceramic Titanium Dioxide is used in photocatalysis ceramic tiles, filters, and functional paint to break down organic contaminants, remove germs, and neutralize smells when activated by UV or visible light. More and more of these photo-catalytic ceramics have been applied to indoor architecture, air-purifying systems, and self-cleaning surfaces – a combination of the durability of ceramic materials and the active environment restoration capabilities of TiO2 photo-catalyzer.
Refractory and Structural Ceramic Manufacturing
The addition of Ceramic Titanium Dioxide as a function-modifying agent can enhance the high-temperature, heat-impact, and chemical anti-corrosion properties of the refractory bricks, crucibles, and furniture. Due to its capability of accelerating the growth of the particles and the density of the particles, it is an important addition to the structure of the ceramic system, which is designed for continuous performance in the heat and chemistry of the material used in metallurgy and industry.
Ceramic Substrate and Technical Component Production
Ceramic Titanium Dioxide is used to prepare advanced ceramic substrates for electronics, microwave devices, and optics. In such highly specified technological ceramic applications, ceramic-grade titanium dioxide contributes to accurate dielectric performance, controlled heat expansion, and dimension stabilisation – satisfying the demanding requirements of aerospace, telecom, medical equipment, and advanced semiconductor manufacturers.
Our titanium dioxide ceramic Advantages
Exceptional Thermal & Chemical Stability
Titanium dioxide ceramics are resistant to high temperatures and are resistant to acids, alkalis, and oxidants – which makes them ideal for challenging industrial conditions that do not allow the integrity of the material to be damaged.
Superior Mechanical Strength & Wear Resistance
Due to its high hardness and superior fracture toughness, titanium dioxide ceramics offer superior endurance in the case of mechanical stress, decreasing the replacement rate and decreasing the long term operating costs in different types of abrasive applications.
Precise Functional Performance
Designed to achieve uniform photocatalytic, optical, and dielectric properties, Ceramic Titanium Dioxide can meet strict specifications — ensuring reliable, reproducible performance in electronic, paint, and advanced materials applications.
二酸化チタンのすべてのカテゴリを検索
Are you searching for suitable titanium dioxide for your use? Explore the whole spectrum of titanium dioxide categories – from rutile and anatase grades to specialist ceramic formulas – all of which are designed for a wide variety of industry needs. Regardless of your requirements for light properties, photocatalysis and structure accuracy, we will provide you with the precise specs you want.
すべての産業向けソリューションを検索
Titania is only one component of a wider toolbox of materials science. Ranging from the active carbon used in cleaning systems to the high temperature aluminum oxide, we have a wide range of industrial solutions that can be adapted to the real world. Find out how we can use an integration method to address the complexity of a wide range of issues for producers, engineers, and buyers.
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