Ceramics

02/15/26

“What material properties make ceramics special?”

We use ceramics in our everyday life, whether it’s the mug for our morning coffee, the bricks in the buildings we inhabit, or the fillings in our teeth. But what material properties make them so special? Well, ceramics are materials made up of nonmetallic, inorganic chemical compounds strung together by ionic and/or covalent bonding. This gives them high compressive strength, hardness, melting points, and wear resistance, with the drawbacks of high brittleness, low toughness, and vulnerability to cracks. Ceramics are also corrosion-resistant and thermally stable, making them well-suited for chemically and thermodynamically intense applications. 

Corosion

02/13/26

“Why do objects corrode?”

You’ve probably heard people talking about objects corroding away. You may have even used the term itself. But what does it mean, and what’s the process behind it? Well, when a metal is exposed to environmental factors, it may lose electrons, becoming an anode. These electrons may then travel along the metal where a reduction reaction occurs (cathode), such as oxygen and water. The products of this redox reaction will then react with the metal ions to form oxides, leading to a degradation of the material. This Corosion process is affected by the presence of potential anodes, cathodes, electrolytes, and electrical conductors. Rusting is a form of corosion. Corrosion is a critically important factor for material design, whether it’s for water supply pipes or electrical transformers.

Carbonaceous Biochemical Oxygen Demand

02/11/26

“How can we represent the amount of oxygen bacteria use to break down carbon-based matter?”

Bacteria use oxygen to power themselves while they break down material. Sometimes, people want to know only the amount of oxygen for consuming specific materials. The amount of oxygen bacteria use to solely consume carbon-based matter is known as Carbonaceous Biochemical Oxygen Demand.