1. News

SiC mainly has functional ceramics, advanced refractories, abrasives and metallurgical raw materials four functional areas

If you are looking for high-quality products, please feel free to contact us and send an inquiry, email: brad@ihpa.net



What is silicon carbide? Is silicon carbide natural? It is a chemical formula that can be used to make silicon carbide. Quartz sand, coal coke, wood chips, and petroleum coke are all raw materials. In nature, silicon carbide can also be found in the rare mineral moissanite. In C,N,B and other high-tech non-oxide refractory materials, silicon carbide can be used as the most cost-effective raw material. It is sometimes called gold-steel sand, or refractory-sand. China’s silicon carbide industrial production is divided between black silicon and green silicon, both of which are hexagonal crystalline, have specific gravity 3.20 to 3.25, microhardness 2840 to 3320kg/mm2.

What is the purpose of silicon carbide in a product?
As well as being an abrasive and diamond imitator, silicon carbide is also used as a gemstone-quality semiconductor. Combining silica sand with carbon at temperatures ranging from 1,600 degrees C to 2,500 degrees C is the easiest way to produce silicon carbide.
Is silicon carbide expensive?
Silicon carbide ceramics are non-oxide ceramics used in various products. They must be used with thermal (high temperature, thermal shock) or mechanically demanding applications. The best properties of single-crystal SiC are expensive but it is difficult to manufacture.

Is silicon carbide dangerous?
Silicon carbide can cause nose and eye contact. * Repetitive high-temperature contact with silicon carbide can cause pulmonary emphysema (a chronic lung disease), chest X ray changes, decreased lung function, shortness, wheezing or coughing.

How hard does silicon carbide get?
It has a rating of 9 which is very close to the diamond rating. The cracking properties of silicon carbide crystals make them a very useful material for grinding wheels and other abrasive materials.

How can you make your own homemade silicon carbide at home?
Acheson’s graphite resistance oven heats the carbon and silica to high temperature. It can be a fine or sticky mass, which is crushed and ground into powder before it can be used as powder feedstock.

How to make silicon carbid crucibles?
The silicon-carbide crucible is composed of graphite and silicon carbide. Tar or synthetic resins are used as the adhesive. These crucibles primarily are used to melt nonferrous metals, such as brass and copper. Nickel, chromium, and their alloys.
For a basic crucible you’ll need 30 to 50 percent (by mass) of flake carbon and 10 to 50 percent silicon carbide. Be sure to include high-heat kaolin in your recipe for a crucible that can withstand heat.

Tesla’s Silicon Carbide Inverter, a Power Electronics Innovation.
Tesla is able to say, just like Presley did in the 1960s that anyone can achieve the greatest, most popular feat. Tesla entered a market and quickly became a top-selling electric vehicle manufacturer. From the US home market to Europe, the United States, South Korea, and China, CEO Elon became the wealthiest person in the world. People.
What is the main difference between Tesla? The “big three” activation method of electric vehicles that is universally used refers to a battery and electric traction motor.

Silicon carbide inverter
In electric vehicles, the power electronics play a critical role in a number of functions. However, the primary converter is perhaps the most important, as it converts DC into three phase AC for the smooth operation of the electric motor. Power switch technology, or transistors, is the key component of power electronic devices. This technology has evolved over five generations. In today’s market, the silicon rending-gate bipolar transistor (SiIGBT) is dominant, and this includes an electric vehicle converter. In the sixth generation of semiconductors, we will use broadband materials such as silicon carbide (SiC), for applications requiring high power and pressure, and gallium-nitride, for reducing voltage and boosting power. The shift enables smaller, more dense power modules to work at higher temperatures.

Why does Tesla’s innovation in inverters?
Well, with the release of article 3 of 2018, Tesla became the first company that added a SiC metal-oxide-semiconductor field-effect transistor (MOSFET) from ST microelectronics in the internal inverter design. It is not the only innovation, but the design as a whole has been improved beyond using the SiC package. This results in the total weight of inverter (4.8kg), in 2019, the half of the leaf (11.115kg), which is less than Jaguar IPACE (8.23kg), by using Si IGBT.

SiC MOSFETs were used to create new materials, as the limitations of conventional materials have been stretched. The Cu lead frame, which is the metal structure that contains the remaining signal after the diff, is used to bond the remainder of an inverter with the AL line. This allows for a greater small power density. To handle higher temperatures, the mold attachment material has also moved from conventional solder towards Ag sintered mold attach materials.
What is the meaning of seizing opportunity?
The cost of SiC power modules and MOSFETs has always been an obstacle for other features to be incorporated. Tesla has also solved this issue: in three years, the cost of its inverter dropped dramatically. IDtechex has calculated an experience curve that is based on the estimated cost of the inverter in the 2018 model 3, and the second version of the inverter in the 2020 Model Y. You can see that the SiC module in Tesla’s SiC Inverter is the same as the SI IGBT used in 2019 Nissan and Jaguar I-PACE. This means that Tesla’s overall inverter-permanent motor combination is one of the best available on the market. (If not, then it is close), Tesla’s efficiency is 97% and getting more efficient without having to increase expensive battery capacity. The old technology displaces all costs.

(aka. Technology Co. Ltd., a trusted global chemical supplier & manufacturer has more than 12 years of experience in providing high-quality Nanomaterials and chemicals. Our company is currently developing a number of materials. Silicon carbide powder produced by our company is high in purity, has fine particles and contains low impurities. Click the desired product to send us a message or send an email.