Overview of Silicon Carbide Ceramics

Silicon Carbide (SiC) ceramics are renowned for their outstanding mechanical properties, including high hardness, strength at elevated temperatures, and excellent thermal shock resistance. These materials are pivotal in cutting-edge industrial applications, from abrasives to aerospace components, due to their unique combination of properties.

Features of Silicon Carbide Ceramics

High Hardness: Exceptional wear resistance.

Thermal Shock Resistance: Can withstand rapid temperature changes.

Chemical Stability: Resistant to most chemicals.

High Thermal Conductivity: Efficient heat dissipation.

Low Density: Lightweight for its strength.

(100#120#150#200#350#40#60#80#8ml Reaction Sintering Ceramic SIC Silicon Carbide Ceramic Crucible)

Specification of 100#120#150#200#350#40#60#80#8ml Reaction Sintering Ceramic SIC Silicon Carbide Ceramic Crucible

The 100 # 120 # 150 # 200 # 350 # 40 # 60 # 80 # 8ml Reaction Sintering Ceramic SIC Silicon Carbide Porcelain Crucible is developed for high-temperature applications. It manages extreme warm and rough chemical environments. The product is silicon carbide ceramic created with reaction sintering. This method makes sure high thickness and structural security. The crucible resists thermal shock, corrosion, and abrasion effectively.

The product is available in numerous sizes. The 100 #, 120 #, 150 #, 200 #, and 350 # models cater to industrial-scale operations. The 40 #, 60 #, and 80 # variations suit smaller sized research laboratory or specialized jobs. The 8ml variation is perfect for exact, micro-scale experiments. Each size keeps regular wall density and surface finish. This ensures uniform heat circulation during usage.

Technical specifications consist of a maximum functioning temperature of 1600 ° C. The product’s thermal conductivity is high, enabling quick warm transfer. Its reduced thermal expansion reduces cracking under temperature level shifts. The crucible’s chemical inertness prevents reactions with acids, alkalis, and molten steels. This expands its life expectancy in aggressive atmospheres.

Measurements vary by model. The 100 # crucible has an outer size of 180mm and an elevation of 200mm. The 80 # version actions 120mm in size and 150mm in height. The 8ml variation includes a small layout for dealing with marginal product quantities. All systems consist of an enhanced rim for boosted managing toughness.

Applications span metallurgy, glass manufacturing, and chemical evaluation. The crucible operates in melting, calcination, and sintering processes. It is compatible with electrical heaters, gas-fired kilns, and induction heater. Customers benefit from lowered contamination dangers as a result of the non-reactive ceramic surface.

Personalization is available for particular needs. Alternatives consist of customized measurements, extra layers, or changed thermal residential or commercial properties. The product is packaged safely to prevent damage during transit.

Secret advantages include long service life, very little upkeep, and consistent efficiency. The crucible’s tough building decreases substitute frequency. It operates efficiently in both constant and intermittent heating cycles. Appropriate handling makes certain optimum results throughout all applications.

(100#120#150#200#350#40#60#80#8ml Reaction Sintering Ceramic SIC Silicon Carbide Ceramic Crucible)

Applications of 100#120#150#200#350#40#60#80#8ml Reaction Sintering Ceramic SIC Silicon Carbide Ceramic Crucible

The 100 # 120 # 150 # 200 # 350 # 40 # 60 # 80 # 8ml response sintering ceramic SiC silicon carbide crucible offers several high-temperature commercial applications. The product combines silicon carbide’s thermal shock resistance with reaction sintering’s precision, making it suitable for extreme environments.

In metallurgy, these crucibles melt and cast steels like gold, silver, and light weight aluminum. The high thermal conductivity makes sure quick warmth transfer, lowering power usage. The crucibles resist oxidation and chemical erosion, maintaining architectural honesty even after repeated usage.

Chemical processing industries use them to manage destructive substances. Acids, antacid, and molten salts react minimally with silicon carbide. This decreases contamination risks. The non-porous surface area avoids material build-up, streamlining cleaning.

Semiconductor making counts on these crucibles for crystal growth processes. Silicon carbide’s pureness makes sure marginal contamination transfer throughout silicon or gallium arsenide melting. The crucibles hold up against temperature levels above 1600 ° C, essential for producing high-quality semiconductor wafers.

Laboratories use smaller sized abilities (40ml, 60ml, 8ml) for accurate experiments. Researchers warmth tiny examples of ceramics, alloys, or compounds without fretting about crucible destruction. The consistent home heating distribution boosts speculative precision.

Offered in dimensions from 8ml to 350ml, the crucibles suit diverse operational scales. Smaller sized variations fit benchtop furnaces. Bigger ones serve industrial furnaces for bulk product processing. Customized shapes or thicknesses can be customized to details equipment needs.

The response sintering procedure produces a dense, fine-grained framework. This improves mechanical strength contrasted to traditional porcelains. Customers avoid fractures or contortions under fast temperature shifts.

These crucibles decrease downtime in high-temperature operations. Lengthy life span cuts replacement costs. Very little upkeep is needed. Operators concentrate on core tasks rather than tools maintenance.

Compatibility with electric, gas, and induction heaters includes adaptability. Individuals switch between heating techniques without altering crucibles. This adaptability simplifies production in multi-process centers.

Industries focus on safety and effectiveness. The silicon carbide crucible meets both requires. Its reliability in extreme conditions supports regular output quality.

Company Introduction

Advanced Ceramics founded on October 17, 2014, is a high-tech enterprise committed to the research and development, production, processing, sales and technical services of ceramic relative materials and products.. Since its establishment in 2014, the company has been committed to providing customers with the best products and services, and has become a leader in the industry through continuous technological innovation and strict quality management.

Our products includes but not limited to Silicon carbide ceramic products, Boron Carbide Ceramic Products, Boron Nitride Ceramic Products, Silicon Carbide Ceramic Products, Silicon Nitride Ceramic Products, Zirconium Dioxide Ceramic Products, Quartz Products, etc. Please feel free to contact us.(nanotrun@yahoo.com)

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of 100#120#150#200#350#40#60#80#8ml Reaction Sintering Ceramic SIC Silicon Carbide Ceramic Crucible

What is Reaction Sintering SIC Ceramic Crucible made of?
The crucible is made of silicon carbide (SIC) ceramic. The material is processed using reaction sintering. This method boosts strength and heat resistance. It works well for high-temperature tasks like melting metals or lab experiments.

What temperatures can it handle?
It withstands temperatures up to 1600°C. This makes it suitable for extreme heat applications. Other materials might crack or degrade. SIC ceramic stays stable. It resists thermal shock, so rapid temperature changes won’t damage it.

Why choose 100#120#150#200#350#40#60#80#8ml capacities?
Different sizes fit different needs. Smaller capacities (8ml-80ml) suit precise lab tests. Larger ones (100ml-350ml) handle bulk material processing. Pick based on sample volume or furnace size. Check your equipment specs before selecting.

How do I clean and maintain it?
Avoid sudden temperature shifts. Let it cool slowly after heating. Clean with non-abrasive tools or mild solvents. Don’t scrape the surface. Inspect for cracks before reuse. Proper care extends its lifespan.

Can it be used with corrosive materials?
Yes. Silicon carbide resists acids, alkalis, and molten salts. It’s ideal for harsh chemical environments. Metals like gold, silver, or aluminum won’t react with it. Still, check compatibility with specific substances beforehand.

Does it work in induction furnaces?
Yes. The material conducts electricity well. It heats evenly in induction setups. Ensure the crucible size matches the furnace coil dimensions. This prevents uneven heating or energy waste.

How long does it last?
Lifespan depends on usage conditions. With proper handling, it lasts months or years. Avoid mechanical impacts. Replace it if cracks or severe wear appear.

Is customization available?
Yes. Some suppliers offer custom shapes or sizes. Provide details like dimensions or special features needed. Confirm production feasibility before ordering.

Why pick SIC over graphite or alumina?
SIC lasts longer under high heat and corrosion. Graphite erodes faster. Alumina cracks more easily. SIC balances durability and cost for industrial or lab use.

Where can I buy these crucibles?
Check specialized ceramic suppliers or industrial equipment stores. Online platforms like Amazon or Alibaba also stock them. Verify seller reviews and product certifications first.

(100#120#150#200#350#40#60#80#8ml Reaction Sintering Ceramic SIC Silicon Carbide Ceramic Crucible)