Custom Processing Ceramics

Your Professional Custom Processing Ceramics Supplier

Superior Ceramics Times Technology Co., Ltd. is a manufacturer specializing in the production of advanced ceramic materials, including nitrides, oxides, carbides, and composite ceramics. Our product portfolio encompasses silicon carbide, aluminum nitride, alumina, ultrapure alumina, yttria, zirconia, high-purity and high-performance boron nitride ceramics, zirconia toughened alumina (ZTA), alumina toughened zirconia (ATZ), silicon nitride, as well as other reinforced, composite, and high-performance ceramic materials.

Advanced Production Technology

The company employs advanced manufacturing technologies, including sintering, molding, grinding, CNC machining, laser drilling, precision grinding, and polishing processes.

Complete Production Equipment

Key production equipment includes sintering furnaces, isostatic presses, grinders, engraving machines, laser cutters, double-sided grinding machines, sand wire cutting devices, and injection molding machines.

 

Professional R&D Team

Our team consists of experienced experts dedicated to researching advanced ceramic materials. To date, the team has published over 100 academic papers, filed five Chinese invention patents, and obtained more than 20 utility model patents.

Professional Service

The product has technical support from Ph.D. experts and other experts during the research and development stage. The process is rigorous during the production process, and the after-sales service is on call 24 hours a day.

 

 

 
  • Macor Machinable Ceramic
    Products Description Macor is a unique white。 Its most notable feature is that it can be precision-machined using standard metalworking tools (such as lathes, milling machines, and drills) without...
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  • ZERODUR Machinable Glass Ceramic
    Products Description ZERODUR is a high-performance glass-ceramic known for its most prominent feature: a coefficient of thermal expansion (CTE) close to zero, providing exceptional dimensional...
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  • Alumina Ceramic Vertebrae
    CeramicsTimes' alumina ceramic (Al2O3) vertebrae are high-hardness, wear-resistant, chemically stable precision ceramic components that are widely used in medical implants ...
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  • Zirconia Ceramic Positioner
    CeramicsTimes company's zirconia ceramic positioning technology has achieved irreplaceable precision performance in medical, energy, semiconductor and other high-end fields through...
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  • Wafer Probe Plate
    Wafer Probe Plate is a high-precision, multi-functional wafer test equipment, which is mainly used in semiconductor manufacturing and research fields, and undertakes the key task of performing...
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Parameter

 

Color

Customized according to the client's requirements

Size

Slot width Between 20 μm and 80 μm

Delivery time

Standard Product-Within 3 days

Items Design

According to the client's drawing or samples

Application

Industrial Ceramics

Certificate

ISO, CE

 

 
Advantages of Custom Processing Ceramics
 
01/

Superior mechanical properties
Ceramics feature excellent hardness and strength, which often surpass those of metals. This makes them ideal for applications where durability and wear resistance are essential.

02/

Thermal stability
Unlike metals, which usually melt or soften under intense heat, ceramics maintain their structure due to their exceptional thermal stability. This is particularly important in industries such as automotive and electronics, where components are often exposed to high temperatures.

03/

Chemical resistance
Another key advantage of ceramics is their chemical resistance and resistance to corrosion. Metals corrode when exposed to harsh chemical conditions and lead to potential failures and maintenance issues.

04/

Precision and complexity
The process of injection molding allows for the production of highly complex and precise ceramic parts. This capacity to create intricate geometries with tight tolerances is a significant advantage over traditional manufacturing methods.

05/

Cost-effectiveness
While ceramics are typically regarded as expensive, the process itself is cost-effective, particularly for high-volume production runs. It reduces the need for multiple machining operations, saving time and labor cost.

06/

Environmental benefits
When compared to materials such as metal and plastics, ceramics are typically more environmentally friendly. They are non-toxic and use abundant natural resources. The long lifespan of ceramic parts also requires fewer replacements and results in less waste.

 

Custom Processing Ceramics Materials
 
Zirconia Ceramic Positioner

Oxide Ceramics
Aluminum oxide (Al₂O₃)
Zirconium oxide (ZrO₂)
Magnesium oxide (MgO)
Titanium oxide (TiO₂)

 

Non-oxide Ceramics
Silicon carbide (SiC)
Silicon nitride (Si₃N₄)
Boron carbide (B₄C)
Aluminum nitride (AlN)

Ceramic Matrix Composites (CMCs)
Ceramic fibers in ceramic matrices
Particle-reinforced ceramic composites

 

Piezoelectric Ceramics
Lead zirconate titanate (PZT)
Barium titanate (BaTiO₃)

 

Bioceramics
Hydroxyapatite (HA)
Tricalcium phosphate (TCP)
Bioactive glasses

Alumina Ceramic Vertebrae

 

Forming Methods for Custom Processing Ceramics
 
 
 

Dry Pressing

Uniaxial pressing
Isostatic pressing (CIP)
Hot pressing

 
 

Wet Forming Methods

Slip casting
Tape casting
Gel casting
Injection molding

 
 

Plastic Forming

Extrusion
Jiggering and plastic pressing

 
 

Additive Manufacturing

Stereolithography (SLA) with ceramic slurries
Selective laser sintering (SLS)
Direct ink writing (DIW)
Binder jetting

 

 

Order Process
 

Step 1: Order confirmation
First, an internal contract review will be done. We will confirm your needs, including product specifications, quantity, unit price,delivery time, etc., to ensure that the order information is accurate.

 

Step 2: Production evaluation and plan
We will evaluate production capacity including raw material procurement, production equipment and production personnel arrangements, and then formulate a production plan, including production schedule, procurement plan, production process, etc., to ensure that production is carried out in an orderly manner.

 

Step 3: Process control and product inspection
During the production process, we will conduct quality control on raw materials, production equipment, and production personnel . After the production is completed, we will conduct strict inspection and testing on the product to ensure that the product meets the specifications and quality you require.

 

Step 4: Packaging and delivery
When the product passes the inspection, we will pack and ship it to ensure safe and complete delivery to you.

 

Step 5: After-sales service
After the product is delivered, we will establish a sound after-sales service system to respond and deal with your questions and needs in a timely manner to ensure customer satisfaction.

 

Packaging and Shipping

 

Packaging

The package of our products usually includes bubble wrap, carton, pallet and wooden case, etc. Also it can be designed according to your demands.

Shipping

Shipping by sea, by air, by express are acceptable. According to your requirements.

 

 

Our Factory

 

Superior Ceramics Times Technology Co., Ltd. was established in 2005 and has several production plants in Taizhou, Shaoxing, etc. We also have a registered company in the United States, located at 10 ROBIN, IRVINE, CA 92604.

 

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Our Certificates

 

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FAQ

 

Q: What is a ceramic wafer probe plate?

A: It is a key component in semiconductor testing, used to accurately position and connect probes to the pads on a wafer, enabling electrical testing of integrated circuits.

Q: Why is ceramic chosen as the material for probe plates?

A: Ceramic has a thermal expansion coefficient close to that of the wafer, which helps maintain accurate probe - pad alignment during thermal cycling. It also offers high electrical insulation, good mechanical strength, and chemical stability.

Q: What are the main structures of a ceramic wafer probe plate?

A: It usually consists of a ceramic substrate with precisely arranged holes or patterns for inserting probes, and may also have metalized layers for electrical connection and alignment marks for precise positioning.

Q: How does the thermal performance of the ceramic wafer probe plate affect the testing process?

A: During high - temperature or low - temperature testing, the ceramic wafer probe plate needs to have good thermal stability to avoid thermal deformation. Otherwise, it will cause misalignment of the probes and affect the accuracy of the test results.

Q: How should ceramic wafer probe plates be maintained?

A: They should be kept clean and free from contamination. Regularly clean the probe plate surface and probes with appropriate cleaning agents. Avoid physical damage and store them in a dry and clean environment.

Q: How to judge whether the probes on the ceramic wafer probe plate need to be replaced?

A: If the probe tip is bent, worn, or oxidized, or if there is a significant increase in contact resistance during testing, it indicates that the probe may need to be replaced.

As one of the most professional custom processing ceramics manufacturers and suppliers, we're featured by quality products and good price. Please rest assured to buy high-grade custom processing ceramics from our factory.