Designing and Building a Hydraulic Arm

We are proud to present the exceptional work of our talented students who have been studying hydraulic systems as part of their science technology & engineering(STE) curriculum. Through their diligent efforts, they have gained a deep understanding of this fascinating field and have produced outstanding projects that demonstrate their knowledge and creativity.

In their exploration of hydraulic systems, our students have delved into the fundamental principles of fluid mechanics, including Pascal’s law and the concept of fluid pressure. They have grasped the intricacies of hydraulic components such as pumps, valves, actuators, and fluid lines, and have skillfully analyzed their roles in the overall system.

The students have demonstrated a keen understanding of the advantages and applications of hydraulic systems. They have highlighted the efficiency of power transmission, the ability to generate high forces with minimal input, and the precision control and smooth operation that hydraulic systems offer. Their projects showcase the versatility of hydraulic systems in various industries, including automotive, construction, and robotics.

Moreover, our students have gone above and beyond in their projects by designing and constructing their own hydraulic models. These models showcase their innovative thinking and practical skills as they create functional systems that simulate real-world applications. From robotic arms to lifting mechanisms and precision control systems, our students have showcased their ingenuity and problem-solving abilities.

Throughout their work, our students have also emphasized the importance of maintenance and troubleshooting in hydraulic systems. They have developed a comprehensive understanding of routine checks, fluid management, and diagnosing common issues such as leaks and pressure losses. Their projects reflect their dedication to ensuring the longevity and optimal performance of hydraulic systems.

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