Silicon Carbide Analysis and Usage

2022-12-12 22:05:41 By : Mr. Xudong Li

We use cookies to enhance your experience. By continuing to browse this site you agree to our use of cookies. More info.

American inventor Edward G. Acheson discovered silicon carbide (SiC) in 1891 when he attempted to create artificial diamonds. He discovered that bright green crystals were formed while heating a mixture of powdered coke and clay in an iron bowl with an ordinary carbon arc-light acting as the electrodes. He named the new compound as ‘Carborundum,’ and applied for a US patent when he realized the significance of the new material, which approximated the hardness of diamond. His early product was used for polishing gems. The new compound, which is produced in large quantities from low-cost raw materials, soon became a key industrial abrasive. Spiral Sic Heating Element

Silicon Carbide Analysis and Usage

SiC is exceedingly hard and was initially utilized as an abrasive. The synthetic crystalline compound of silicon and carbon has been used as a key material for cutting tools, grinding wheels and sandpapers since the late 19th century. More recently, the areas of application of SiC have been expanded, further thanks to its high endurance properties. SiC can be utilized to fabricate very hard ceramics by bonding grains of SiC together by sintering. These ceramics have found use in a myriad of applications, including refractory linings, car clutches, car brakes, in wear-resistant components for rocket engines and pumps, as heating elements for industrial furnaces, and even as ceramic plates for bulletproof vests. SiC has also found use in electronic applications, such as light emitting diodes and high-temperature/high-voltage semiconductor electronics.

The Lely method is used for growing large single crystals of SiC. These large crystals are then cut down into gems called as ‘synthetic moissanite.’ SiO2 found in plant material can be used to produce SiC with high surface area. Assessing the quality of SiC is a key step in the processing of SiC. LSM Analytical Services enables manufacturers to fulfill this requirement. The company provides a wide range of testing methods for material analysis. With one sample, the company delivers multi-faceted testing results.

The following are the tests performed by LSM Analytical Services for SiC analysis:

LSM Analytical Services provide rapid, reliable analytical data at economical cost.

LSM Analytical Services offer you the service through our modern Rotherham laboratory. The following are available:-

For many years LSM has specialised in manufacture and analysis of ferroalloys, metal powders, aluminium master alloys and glass/plastic polishing compounds.

Our laboratory operates a computerised sample registration and reporting facility, which guarantees the confidentiality of our customer's results. This first class service is available to you at competitive rates. We offer a high-quality analytical service, with rapid turn-around times (24 hours a day, 6 days a week), on a comprehensive list of analytical programmes.

If your particular needs are not listed we will be glad to discuss your requirements. If you have an analytical problem, contact our Laboratory Business Manager or Sales Administrator at the Rotherham Laboratory who will be pleased to discuss it with you.

This information has been sourced, reviewed and adapted from materials provided by LSM Analytical Services.

For more information on this source, please visit LSM Analytical Services.

Please use one of the following formats to cite this article in your essay, paper or report:

LSM Analytical Services. (2018, August 06). Silicon Carbide Analysis and Usage. AZoM. Retrieved on December 12, 2022 from

LSM Analytical Services. "Silicon Carbide Analysis and Usage". AZoM. 12 December 2022. <>.

LSM Analytical Services. "Silicon Carbide Analysis and Usage". AZoM. (accessed December 12, 2022).

LSM Analytical Services. 2018. Silicon Carbide Analysis and Usage. AZoM, viewed 12 December 2022,

Do you have a review, update or anything you would like to add to this article?

In AZoM's latest interview, we talk with Jeff Shainline from the NIST in Boulder, CO, about his research looking at forming superconducting circuits with synaptic behavior. This research could transform how we approach AI and computing.

In this interview, AZoM speaks with Dr. Tanja Butt, Product Manager at Retsch, about mechanochemistry and its applications for creating a sustainable future.

Ryan Lerud & Greg Gargus

In this interview, AZoM speaks with Greg Gargus from Guided Wave, to discuss the advances in hydrogen peroxide sterilant vapor monitoring.

Shimadzu’s EDX-7200 is the leader of the EDX series, providing high speed, sensitivity and precision. The 7200 can also provide support on the newest regulations for consumer and environmental issues.

The Datapaq® Food Tracker® from Fluke Process Instruments is a thermal profiling system for food processing applications.

TESCAN launches its brand-new TENSOR system, a dedicated, near-UHV 4-STEM for multimodal characterization of nanoscale particles.

The global semiconductor market has entered an exciting period. Demand for chip technology is both driving the industry as well as hindering it, with current chip shortages predicted to last for some time. Current trends will likely shape the future of the industry, which is set to continue to show

The primary distinction between graphene-based batteries and solid-state batteries lies in the composition of either electrode. Although the cathode is commonly changed, carbon allotropes can also be employed in fabricating anodes.

In recent years, the IoT is rapidly being introduced into almost all sectors, but it has particular importance in the EV industry. - An AZoNetwork Site

Silicon Carbide Analysis and Usage

Replacing A Heating Element Owned and operated by AZoNetwork, © 2000-2022