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The continuous-flow microfluidic PCR microdevice enables several features like compact device, portability, repeatability, miniaturization, and integration with a marginal sample reaction volume. There has been substantial innovation in the development of continuous-flow based microfluidic PCR micro-devices in the last few decades because of their widespread applications. Further, it is hard to establish a platform to integrate, automate, and miniaturize the microdevice on a solo stage for testing and analyzing. However, the existing classical instruments are hefty, excessive thermal loss, more power consumption, laborious, and require more execution time. Herein, the application of microfluidic devices for nucleic acid amplification has recently been extensively and vigorously studied and implemented. Hence, the sensor types covered in this review are Hall Effect, Giant Magnetoresistance, Tunnel Magnetoresistance, Anisotropic Magnetoresistance and Giant Magnetoimpedance.Ī polymerase chain reaction (PCR) is a method typically active in genetic research, especially to amplify or copy genes. Such applications require a high sensitivity, low power consumption, flexible substrates and miniaturization. In this review, we will focus on solid state magnetic field sensors that enable miniaturization and are suitable for integrated approaches to satisfy the needs of growing application areas like biosensors, ubiquitous sensor networks, wearables, smart things etc. Magnetic field sensors exploit different physical principles for their operation, resulting in different specifications with respect to sensitivity, linearity, field range, power consumption, costs etc. The development is driven both by new use cases and demand like internet of things as well as by new technologies and capabilities like flexible and stretchable devices. Magnetic field sensors are an integral part of many industrial and biomedical applications, and their utilization continues to grow at a high rate. The paper also compares the work of other authors as well and explains the differentiating factors between our and their design. Finally, all the components were designed in Solidworks, and simulations like Factor of safety, von mises stress, and strain were performed using ANSYS 18.1.
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The paper presents some innovative new ideas applied in an FSAE car and also involves designing techniques like topology optimization which was done using Altair inspire. The braking system involves the mathematical calculation of pedal ratio, brake torque, heat generated in brake discs, and required clamping force using MATLAB to achieve peak deceleration after which these values would be used to design and simulate the components.
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The Racecar is an FSAE car that is designed around the rules and regulations of the FSAE rulebook, the main aim of this project is to make components lightweight and improve their performance as compared to their OEM counterparts. The objective of this research paper is to design, simulate and compare components of a race car braking system. The fast and scalable incremental solver supports forming and trimming, giving the ability to accurately analyse material flow, splits, wrinkles, lose metal, and springback. Optimise the manufacturing process setting up single and multistage metal forming virtual tryout tools. Visualise thinning and other defects such as splits, wrinkles and loose metal. The flat blank needed to form the part shape is available at the end of the analysis. It is also possible to create a new material and save it within the user database. It is also possible to apply restraining forces corresponding to blankholder and draw-beads.Īltair Inspire Form provides a material library with properties for standard steel and aluminium grades. The user can also specify the stamping direction. If the part geometry is available in car coordinates, Altair Inspire Form automatically calculates the best stamping direction. In addition, use Altair Inspire™ tools to create and modify geometry. Extract mid-surface, fill holes and cutouts, remove flanges using Altair Inspire Form’s geometry preparation tools.