Overview of High Hardness Boron Carbide B4c Disc for Nuclear Industry

High Hardness Boron Carbide B4c Disc for Nuclear Industry is an ultra-hard advanced ceramic, ranking as the third hardest material known after diamond and cubic boron nitride. Often referred to as “black diamond,” it is the premier choice for extreme applications requiring maximum hardness and lightweight properties, particularly in the field of ballistic armor and abrasive environments.

Features of High Hardness Boron Carbide B4c Disc for Nuclear Industry

• Exceptional Hardness: Possesses a hardness level near that of diamond, making it ideal for abrasive and wear-resistant applications.

• Extremely Lightweight: With a low density, it offers an outstanding strength-to-weight ratio, crucial for personal and aviation armor.

• Outstanding Ballistic Performance: The premier material for high-performance body and vehicle armor plates, capable of defeating high-velocity threats.

• High Neutron Absorption: An excellent neutron capture cross-section makes it a key material for nuclear reactor control rods and shielding.

• Excellent Chemical Resistance: Highly inert and resistant to acids and alkalis, ensuring performance in corrosive environments.

• High-Temperature Stability: Maintains its properties and structure at elevated temperatures.

Specification of High Hardness Boron Carbide B4c Disc for Nuclear Industry

This boron carbide disc fulfills strict nuclear sector requirements. Its main product is boron carbide. Boron carbide is really hard. It is one of the hardest products known. This hardness secures against wear. Use happens popular nuclear environments. The disc stops neutrons well. Neutron absorption is important for nuclear security. It controls nuclear reactions. It shields workers from radiation.

The disc has high thickness. Density helps its stopping power. Higher density takes in a lot more neutrons. The disc manages high heat. Nuclear devices gets hot. This disc stays secure under warmth. Its form will not alter easily. This is essential for accurate activator parts. Pureness is essential. We control impurities thoroughly. Impurities can impact nuclear efficiency. We minimize unwanted components.

Standard disc sizes are offered. Typical diameters are 50mm, 100mm, 200mm. Density varieties from 2mm to 20mm. We make custom sizes as well. The surface is smooth. Smooth surface areas fit well in assemblies. They minimize friction factors. The disc stands up to deterioration. Nuclear settings have extreme chemicals. Boron carbide stands up to chemical assault. This guarantees long life span.

The disc is strong mechanically. It resists breaking under pressure. Nuclear elements face stress and anxiety. This disc offers reliable toughness. Its thermal conductivity is great. Warmth relocations away successfully. This protects against overheating areas. Overheating damages components. The disc helps manage temperatures. It operates in control rods. It operates in shielding blocks. It works in dimension devices. It offers safety and security and control.

Applications of High Hardness Boron Carbide B4c Disc for Nuclear Industry

Boron carbide discs provide crucial defense in nuclear settings. Their extreme firmness makes them really hard against physical damages. This matters a lot inside activators where products face consistent stress and anxiety.

The crucial strength is outstanding neutron absorption. Boron carbide captures neutrons efficiently. This stops nuclear chain reactions securely. Control poles count heavily on this residential property. These rods take care of reactor power degrees. Placing boron carbide discs absorbs neutrons. This slows or quits fission reactions promptly. Specific control is crucial for reactor security.

Radiation shielding is another major usage. Boron carbide blocks unsafe neutrons. Workers need protection from radiation exposure. Putting these discs in guards adds a solid defense layer. They help contain radiation within assigned areas. This safeguards employees and delicate tools nearby.

Material stability under radiation is essential. Boron carbide maintains its shape and feature well. It resists damaging down or swelling considerably. This integrity is non-negotiable for lasting activator procedure. Components should execute constantly for several years.

Taking care of high temperatures is also vital. Activator cores generate extreme warmth. Boron carbide holds up against these conditions. It does not melt or weaken conveniently. This thermal stability supports continuous, secure power generation.

Using boron carbide discs implies improved security margins. They provide reputable neutron control and protecting. Nuclear power plant need elements that function flawlessly whenever. This product supplies the essential performance and strength. It aids ensure nuclear facilities run firmly and efficiently.

Company Profile

Tanki New Materials Co.Ltd. focus on the research and development, production and sales of ceramic products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2015, 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 Aerogel, Aluminum Nitride, Aluminum Oxide, Boron Carbide, Boron Nitride, Ceramic Crucible, Ceramic Fiber, Quartz Product, Refractory Material, Silicon Carbide, Silicon Nitride, ect. please feel free to contact us.

Payment Methods

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

Shipment Methods

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

5 FAQs of High Hardness Boron Carbide B4c Disc for Nuclear Industry

What is boron carbide?
Boron carbide (B4C) is an extremely hard ceramic material. It is one of the hardest substances known. People use it where materials face severe wear or impact. Its hardness is very important for tough jobs.

Why use B4C discs in nuclear reactors?
B4C is excellent at absorbing neutrons. Stopping neutrons is vital in nuclear reactors. It controls nuclear reactions safely. It protects people and equipment from radiation. This makes it perfect for control rods and shielding discs.

Does radiation damage B4C discs?
B4C resists radiation damage very well. It keeps its shape and strength under high radiation. It does not break down easily. This stability is crucial for long-term reactor safety. The discs last a long time even in harsh conditions.

Are B4C discs brittle?
Yes, boron carbide is brittle. It can crack if hit hard. People design components carefully. They avoid sharp impacts during handling and use. Proper installation prevents damage. Its hardness outweighs brittleness in nuclear applications.

Why are B4C discs expensive?
Making pure, dense B4C is difficult. It requires very high temperatures and pressures. The raw materials are costly too. The extreme hardness makes machining complex. The cost reflects the performance and safety benefits it provides.