Yuefei Yan scite author profile

Surface mount technology (SMT) plays an important role in integrated circuits, but due to thermal stress alternation caused by temperature cycling, it tends to have thermo-mechanical reliability problems. At the same time, considering the environmental and health problems of lead (Pb)-based solders, the electronics industry has turned to lead-free solders, such as ternary alloy Sn-3Ag-0.5Cu (SAC305). As lead-free solders exhibit visco-plastic mechanical properties significantly affected by temperature, their thermo-mechanical reliability has received considerable attention. In this study, the interface delamination of an SMT solder joint using a SAC305 alloy under temperature cycling has been analyzed by the nonlinear finite element method. The results indicate that the highest contact pressure at the four corners of the termination/solder horizontal interface means that delamination is most likely to occur, followed by the y-direction side region of the solder/land interface and the top arc region of the termination/solder vertical interface. It should be noted that in order to keep the shape of the solder joint in the finite element model consistent with the actual situation after the reflow process, a minimum energy-based morphology evolution method has been incorporated into the established finite element model. Eventually, an Improved Efficient Global Optimization (IEGO) method was used to optimize the geometry of the SMT solder joint in order to reduce the contact pressure at critical points and critical regions. The optimization result shows that the contact pressure at the critical points and at the critical regions decreases significantly, which also means that the probability of thermal-induced delamination decreases.

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Surface adjustment strategy for a large radio telescope with adjustable dual reflectors

Lian

Wang

Xue

et al. 2019

IET Microwaves, Antennas & Propagation

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With the development of large-aperture and high-frequency radio telescopes, a surface adjustment procedure for the compensation of surface deformations has become of great importance. In this paper, an innovative surface adjustment strategy is proposed to achieve an automated adjustment for the large radio telescope with adjustable dual reflectors. In the proposed strategy, a high-precision and long-distance measurement instrument is adopted and installed on the back of the sub-reflector to measure the distances and elevation angles of the target points on the main reflector. Here, two surface adjustment purposes are discussed. The first purpose is to ensure that the main reflector and the sub-reflector are always positioned at their ideal locations during operation. The second purpose is to adjust the main reflector to the location of the best fitting reflector, and the sub-reflector to the focus of the best fitting reflector. Next, the calculation procedures for the adjustments of the main reflector and the sub-reflector are discussed in detail, and corresponding simulations are carried out to verify the proposed method. The results show that the proposed strategy is effective. This paper can provide helpful guidance for the design of automated surface adjustments for large telescopes.

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Phase Compensation Method for Active Phased Array Antennas in Operating Environment based on Electromechanical Coupling Model

Wang

Yan

et al. 2020

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The diagnostic analysis of the planet bearing faults using the torsional vibration signal

Xue

Howard

Wang

et al. 2019

Mechanical Systems and Signal Processing

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The diagnostic analysis of the fault coupling effects in planet bearing

Xue

Wang

Howard

et al. 2020

Engineering Failure Analysis

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Yuefei Yan

Thermal Induced Interface Mechanical Response Analysis of SMT Lead-Free Solder Joint and Its Adaptive Optimization

Surface adjustment strategy for a large radio telescope with adjustable dual reflectors

Phase Compensation Method for Active Phased Array Antennas in Operating Environment based on Electromechanical Coupling Model

The diagnostic analysis of the planet bearing faults using the torsional vibration signal

The diagnostic analysis of the fault coupling effects in planet bearing

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