Mingli Li is currently a PhD candidate at North Dakota State University, where he is deeply engaged in cutting-edge research focused on the experimental investigation of building materials, particularly concrete integrated with innovative additives like graphite and phase change materials. This work not only enhances...
Mingli Li is currently a PhD candidate at North Dakota State University, where he is deeply engaged in cutting-edge research focused on the experimental investigation of building materials, particularly concrete integrated with innovative additives like graphite and phase change materials. This work not only enhances the mechanical properties of concrete but also aims to improve its thermal performance, a critical aspect in the design of energy-efficient structures. Mingli's research is pivotal in advancing sustainable construction practices, aligning with contemporary trends in renewable energy and eco-friendly materials.
In addition to his experimental work, Mingli is also conducting numerical investigations into the heat transfer behavior of melting layered walls. This research is essential for developing building envelopes that optimize thermal regulation, thereby reducing energy consumption in buildings. His proficiency in engineering software such as COMSOL and AutoCAD enables him to simulate complex thermal dynamics and structural behaviors, ensuring that his findings are both practical and applicable in real-world scenarios.
Mingli’s academic journey is complemented by his four months of industry experience in civil design, where he honed his skills in structural analysis, technical drawing, and fieldwork. With over ten publications to his name, he has established himself as a motivated researcher and a knowledgeable instructor, eager to share his expertise in civil engineering and structural design. Mingli is open to full-time opportunities as a structural engineer, researcher, or instructor, where he can leverage his skills in teamwork, technical writing, and foundation design to contribute to innovative engineering solutions.
