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9 results on '"Yu Xing Peng"'

1. Effects of Strand Lay Direction and Crossing Angle on Tribological Behavior of Winding Hoist Rope.

Author

Xiang-dong Chang, Yu-xing Peng, Zhen-cai Zhu, Xian-sheng Gong, Zhang-fa Yu, Zhen-tao Mi, and Chun-ming Xu

Subjects
FRICTION, WINDING machines, ABRASIVES, FRACTURE mechanics, CLASSICAL mechanics
Abstract

Friction and wear behavior exists between hoisting ropes that are wound around the drums of a multi-layer winding hoist. It decreases the service life of ropes and threatens mine safety. In this research, a series of experiments were conducted using a self-made test rig to study the effects of the strand lay direction and crossing angle on the winding rope’s tribological behavior. Results show that the friction coefficient in the steady-state period shows a decreasing tendency with an increase of the crossing angle in both cross directions, but the variation range is different under different cross directions. Using thermal imaging, the high temperature regions always distribute along the strand lay direction in the gap between adjacent strands, as the cross direction is the same with the strand lay direction (right cross contact). Additionally, the temperature rise in the steady-state increases with the increase of the crossing angle in both cross directions. The differences of the wear scar morphology are obvious under different cross directions, especially for the large crossing angle tests. In the case of right cross, the variation range of wear mass loss is larger than that in left cross. The damage that forms on the wear surface is mainly ploughing, pits, plastic deformation, and fatigue fracture. The major wear mechanisms are adhesive wear, and abrasive and fatigue wear. [ABSTRACT FROM AUTHOR]

Published
2017
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3. Scalable Base-Station Model-Based Multicast in Wireless Sensor Networks.

Author

Shao-Liang Peng, Shan-Shan Li, Lei Chen, Yu-Xing Peng, and Nong Xiao

Subjects
MULTICASTING (Computer networks), SENSOR networks, PEER-to-peer architecture (Computer networks), COMPUTER network architectures, TOPOLOGY, COMPUTER science research, SIMULATION methods & models
Abstract

Abstract  Multicast is essential for wireless sensor network (WSN) applications. Existing multicast protocols in WSNs are often designed in a P2P pattern, assuming small number of destination nodes and frequent changes in network topologies. In order to truly adopt multicast in WSNs, we propose a base-station model-based multicast, SenCast, to meet the general requirements of applications. SenCast is scalable and energy-efficient for large group communications in WSNs. Theoretical analysis shows that SenCast is able to approximate the Minimum Nonleaf Nodes (MNN) problem to a ratio of ln ∣R∣ (R is the set of all destinations), the best known lowest bound. We evaluate our design through comprehensive simulations and prototype implementations on Mica2 motes. Experimental results demonstrate that SenCast outperforms previous multicast protocols including the most recent work uCast. [ABSTRACT FROM AUTHOR]

Published
2008
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