Work with thought leaders and academic experts in metals alloys

Companies can greatly benefit from working with academic researchers specializing in Metals and Alloys. These experts bring a wealth of knowledge and skills that can contribute to various aspects of a company's operations. Here are some ways companies can collaborate with them: 1. Research and Development: Academic researchers can assist in developing new alloys, improving existing materials, and finding innovative solutions to manufacturing challenges. 2. Quality Control: Experts in Metals and Alloys can help companies ensure the quality and reliability of their products through testing, analysis, and inspection. 3. Process Optimization: Collaborating with researchers can lead to the optimization of manufacturing processes, resulting in increased efficiency, reduced costs, and improved product performance. 4. Material Selection: Academic researchers can provide valuable insights into selecting the right materials for specific applications, considering factors such as strength, durability, and corrosion resistance. 5. Problem Solving: When companies encounter technical issues or failures related to Metals and Alloys, academic researchers can offer expertise and guidance to identify the root causes and develop effective solutions.

Experts on NotedSource with backgrounds in metals alloys include Michael Hickner, Tim Osswald, Yuan Yang, Konstantinos Tsavdaridis, Lang Qin, Craig Hawker, Emily Owens, Samiul Amin, Oleg Kozlov, Ph.D., Kayvan Najarian, Matheus Ferraz, and Dr. Wen Cebuhar, PhD.

Samiul Amin

Professor of Practice at University of Miami Professor of Practice and Director ECAP at University of Miami with expertise in Formulation Design, Rheology, Biosurfactants, Biopolymers and Materials Science.
Most Relevant Research Interests
Other Research Interests (60)
Complex Fluids
Protein Aggregation
Colloid and Surface Chemistry
And 55 more
With over 22 years of industry and academic experience in SoftMatter, colloids, and complex fluids, I am a Professor of Practice and Director of the Engineering Corporate Affiliate Program (ECAP) at the University of Miami. My mission is to bridge the gap between engineering education/research and industry needs, and to foster a culture of creativity, innovation, and entrepreneurship among students and faculty. I am also co-founder of FastFormulator a Formulation Design Lab developing novel sustainable formulations for a wide range of industries utilizing an integrated approach of High THroughput FOrmulation Automation/Advanced CHaracterization/AI-ML and based on deep colloid science/complex fluids insights. <br> As a leading researcher and consultant in formulation design and performance optimization of consumer, cosmetic, biopharmaceutical, and homecare products, I collaborate with multiple global companies and organizations to develop novel and sustainable solutions based on high throughput formulation, AI/ML, advanced characterization and novel sustainable materials. I also teach courses in polymers, surfactants, emulsions, rheology, tribology, and innovation management, and chair international conferences in my field of expertise. I am passionate about advancing the science and engineering of complex fluids and cosmetics, and sharing my knowledge and insights with the next generation of engineers and innovators.

Example metals alloys projects

How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on metals alloys?

Development of High-Strength Aluminum Alloy for Automotive Industry

An academic researcher collaborated with an automotive company to develop a high-strength aluminum alloy that meets the industry's requirements for lightweight materials with excellent mechanical properties. This alloy enabled the company to reduce the weight of their vehicles, improving fuel efficiency and overall performance.

Optimization of Steel Manufacturing Process

A steel manufacturing company partnered with a research institution to optimize their manufacturing process. Through in-depth analysis and experimentation, the researchers identified key parameters that significantly impact the quality and properties of the steel. The collaboration resulted in improved product consistency and reduced production costs.

Corrosion Resistance Testing for Marine Equipment

A marine equipment manufacturer collaborated with a materials science researcher to conduct corrosion resistance testing on their products. The researcher evaluated various alloys and coatings to identify the most suitable materials for prolonged exposure to saltwater environments. This collaboration ensured the durability and longevity of the company's products.

Development of Heat-Resistant Alloy for Aerospace Applications

An aerospace company partnered with an academic researcher to develop a heat-resistant alloy for use in high-temperature applications. The researcher conducted extensive experiments and simulations to optimize the alloy's composition and microstructure, resulting in a material that can withstand extreme temperatures and maintain its mechanical properties.

Failure Analysis of Metal Components

A manufacturing company sought the expertise of an academic researcher to investigate the failure of metal components in their products. The researcher performed detailed analysis, including microscopy and mechanical testing, to determine the root causes of the failures. This collaboration led to design improvements and enhanced product reliability.