What We Do
At our research lab, we are dedicated to pushing the boundaries of materials science and engineering. With a focus on advanced manufacturing techniques and tribology, we strive to develop innovative solutions that have a profound impact on various industries.
At our research lab, we foster a collaborative environment that encourages interdisciplinary research and knowledge exchange. We actively collaborate with industry partners, academic institutions, and research organizations to address real-world challenges and translate our findings into practical applications.
Through our cutting-edge research and innovation, we aim to revolutionize manufacturing processes, improve the performance of materials, and drive technological advancements in various sectors. We are committed to contributing to the growth of industries and shaping a sustainable and technologically advanced future.
Join us on this journey of exploration and innovation as we reshape the world of materials manufacturing and tribology. Together, we can unlock the endless possibilities that advanced materials offer.
Our team of highly skilled researchers and engineers brings together a wealth of knowledge and expertise in a wide range of fields. We specialize in the following areas:
Advanced Metal Casting
We excel in the art and science of metal casting, leveraging cutting-edge techniques to create complex and high-quality metal components. Our expertise lies in optimizing casting processes, alloy selection, and design for improved performance and durability.
Advanced Metal Forming
We are at the forefront of metal forming technology, employing advanced methodologies to shape and manipulate metals into desired forms. Through our research, we enhance the efficiency and accuracy of metal forming processes, enabling the production of intricate and customized components.
Additive Manufacturing
We embrace the transformative power of additive manufacturing, also known as 3D printing. By harnessing this revolutionary technology, we explore novel materials, develop innovative manufacturing techniques, and unlock new possibilities in rapid prototyping, tooling, and production.
Tribology and Surface Engineering
Our lab is dedicated to understanding and optimizing the interaction between surfaces in motion. We delve into the intricate science of friction, lubrication, and wear to improve the performance and lifespan of mechanical systems. By applying surface engineering techniques, we develop coatings and treatments that enhance the functionality and durability of materials.
Materials Development
We actively pursue research and development in materials science to create advanced materials with superior properties. Through a combination of synthesis, processing, and characterization techniques, we strive to design materials that are lightweight, durable, and possess unique properties such as high strength, corrosion resistance, and thermal stability.
Our Solutions
We are dedicated to providing innovative solutions in the field of materials science and engineering. Our expertise encompasses a wide range of areas, and we are committed to developing advanced materials, processes, and technologies that meet the evolving needs of various industries.
New Materials
We specialize in the development of new materials that offer enhanced properties and performance. Our research focuses on materials suitable for applications in the automobile, aerospace, defense, and structural industries. By leveraging advanced synthesis and characterization techniques, we create materials with improved strength, durability, lightweight properties, and resistance to corrosion and wear.
New Processes
We continually explore new manufacturing processes to optimize efficiency and enhance the quality of materials. Our expertise covers metal casting, metal forming, powder metallurgy, and additive manufacturing. Through innovative process design and optimization, we enable the production of complex and customized components while reducing lead times and costs.
Microstructure Design
We understand the critical role that microstructure plays in determining the properties of materials. Our research focuses on tailoring the microstructure of materials to achieve desired mechanical, thermal, and electrical properties. By employing advanced techniques such as alloy design, heat treatment, and surface modification, we optimize microstructural characteristics for specific applications.
Recovery, Recycling & Re-manufacturing
We are committed to sustainability and resource conservation. Our research includes the development of techniques for material recovery, recycling, and re-manufacturing. By implementing circular economy principles, we strive to minimize waste and energy consumption while maximizing the utilization of resources.
Testing/Simulation
We utilize advanced testing and simulation techniques to evaluate the performance and behavior of materials. Our state-of-the-art laboratories enable us to conduct comprehensive material characterization, mechanical testing, and simulation studies. Through these analyses, we gain valuable insights into material properties, failure mechanisms, and performance under different operating conditions.
Heat Treatment
Heat treatment plays a crucial role in enhancing the properties of materials. We specialize in designing and optimizing heat treatment processes to improve mechanical strength, hardness, and durability. Our expertise covers a wide range of materials, including metals, alloys, and composites.