Bin w88 slot online, assistant professor of New in fall 2024: w88 online casino, published research on magnesium w88 slot online in a recent issue of Science Magazine.
"As promising lightweight materials for automotive and aerospace applications, magnesium w88 slot online have attracted tremendous attention from both academia and the industry," Li said.
However, these materials can come with obstacles, such as their poor formability at room temperature, attributed to low mobility of a type of crystal defect known as "pyramidal dislocations." These dislocations were believed to be responsible for the low ductility, a measurement of how malleable a metal is when it is mechanically deformed.
w88 slot online has expertise both in experimentation and computational materials science which is a discipline thriving on powerful computer simulations to incorporate materials models in different scales.
Li's research, a collaborative effort with universities from the United States, China, and Australia, used state-of-the-art transmission electron microscopy to observe the activities of pyramidal dislocations in a pure w88 slot online sample at submicron size. It revealed that the pyramidal dislocations are actually mobile and able to carry large plasticity, or the ability to be deformed without fracture.
"The discovery offers w88 slot online insight to the design and processing of magnesium alloys," Li said.
Since being hired in 2014, Li has received two NSF grants and one MRI NSF grant to support his research, one of which focuses specifically on magnesium w88 slot online and one in the area of high-strength steels.
He also is involved in the College of Engineering's w88 slot online manufacturing quality minor which was introduced last fall.
