Mechanics of materials
Demonstrating the unique behaviors of materials in different sizes and environments.
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Micro/ nanoscale evaluation
The market trend for consumer electronic devices and appliances is reaching towards compact and lighter solutions. The amplified microstructural effects of materials in micro/ nano-scale often asks for a better understanding of its properties compared to its bulk counterparts, and it is our aim to develop different techniques to accurately study the small-scale behavior of materials. Find out more on our works... |
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Meso-scale evaluation
At thicknesses comparable to a few strands of human hair, meso-scale specimens is able to provide in-depth information not only on the individual microstructural effects at small-scales, but also with the additional similarity of its behavior with bulk samples. With our custom-built tester, mechanical evaluation can be conducted at a higher cost and time efficiency than its conventional bulk counterparts. Find out more on our works... |
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Bulk-scale evaluation
Based on the international standards of mechanical testing, we utilize both standard and custom-built mechanical tester to assess the performance of a long list of materials fabricated from conventional and additive manufacturing methods. Find out more on our works... |
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Simulation and experimental modeling
Structural and material modeling presents a large pool of possibilities in various system design. This improves the overall time and cost efficiency to achieve the most sustainable and reliable output, and its complexity is well known to escalate in the micro/ nano-systems. Find out more on our work... |
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Elevated temperature evaluation
Applications used in extreme environments, in particular the space and nuclear industry, both require materials to withstand high temperatures in vacuum and to persist their mechanical performance with excellence. It is hence of great importance to subject the same conditions onto the materials and to critically evaluate their behaviors. Find out more on our work... |
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Fatigue, creep and fracture evaluation
Each and every devices we used in our daily life are subjected to a number of repeated cycles in variation of stress, strain, temperature, and other variables in which results in the presence of time-dependent mechanical responses. Therefore, cyclic and creep tests are important to critically evaluate the estimated functional lifespan of materials embedded in these systems. Find out more on our works... |
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