Local measurement of dynamic strain of impacted woven structure

ABSTRACTFEM simulation of micro-rotating-structures was performed for local measurement of residual stresses in thin films. A sensitivity factor is introduced, studied and tabulated from the simulation results. The residual stress can be evaluated from the rotating deflection, the lengths of rotating and fixed beams, and the sensitivity factor. The micro-structure technique was applied to measure residual stresses in both silicon nitride and polysilicon thin films, before and after rapid thermal annealing (RTA), and further confirmed by wafer curvature method. Residual stresses in polysilicon films at different RTA stages were also characterized by micro-Raman spectroscopy (MRS). The experimental results indicate that micro-rotating-structures indeed have the ability to measure spatially and locally residual stresses in MEMS thin films with appropriate sensitivities.

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Modified Johnson-Cook model of aluminum alloy 6016-T6 sheets at low dynamic strain rates

Materials Science and Engineering A ◽

10.1016/j.msea.2021.141565 ◽

2021 ◽

pp. 141565

Author(s):

Zhe Jia ◽

Ben Guan ◽

Yong Zang ◽

Yuan Wang ◽

Lei Mu

Keyword(s):

Aluminum Alloy ◽

Dynamic Strain ◽

Strain Rates ◽

Cook Model

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Distributed Static and Dynamic Strain Measurements in Polymer Optical Fibers by Rayleigh Scattering

Sensors ◽

10.3390/s21155049 ◽

2021 ◽

Vol 21 (15) ◽

pp. 5049

Author(s):

Agnese Coscetta ◽

Ester Catalano ◽

Enis Cerri ◽

Ricardo Oliveira ◽

Lucia Bilro ◽

...

Keyword(s):

Optical Fibers ◽

Time Domain ◽

Rayleigh Scattering ◽

Cost Effective ◽

Time Domain Reflectometry ◽

Dynamic Strain ◽

Strain Measurements ◽

Graded Index ◽

Optical Time ◽

Polymer Optical Fibers

We demonstrate the use of a graded-index perfluorinated optical fiber (GI-POF) for distributed static and dynamic strain measurements based on Rayleigh scattering. The system is based on an amplitude-based phase-sensitive Optical Time-Domain Reflectometry (ϕ-OTDR) configuration, operated at the unconventional wavelength of 850 nm. Static strain measurements have been carried out at a spatial resolution of 4 m and for a strain up to 3.5% by exploiting the increase of the backscatter Rayleigh coefficient consequent to the application of a tensile strain, while vibration/acoustic measurements have been demonstrated for a sampling frequency up to 833 Hz by exploiting the vibration-induced changes in the backscatter Rayleigh intensity time-domain traces arising from coherent interference within the pulse. The reported tests demonstrate that polymer optical fibers can be used for cost-effective multiparameter sensing.

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Reproducibility and Instruction Following in the Shop Floor Laboratory Work: The Case of a TMS Experiment

Science Technology & Human Values ◽

10.1177/01622439211032392 ◽

2021 ◽

pp. 016224392110323

Author(s):

Kristina Popova

Keyword(s):

Measurement Procedure ◽

Shop Floor ◽

Experimental Uncertainty ◽

Local Measurement ◽

Replication Crisis ◽

History Of ◽

Per Se ◽

The Difference ◽

Methodological Guidelines ◽

Local Procedure

The article addresses the production of reproducibility as a topic that has become acutely relevant in the recent discussions on the replication crisis in science. It brings the ethnomethodological stance on reproducibility into the discussions, claiming that reproducibility is necessarily produced locally, on the shop floor, with methodological guidelines serving as references to already established practices rather than their origins. The article refers to this argument empirically, analyzing how a group of novice neuroscientists performs a series of measurements in a transcranial magnetic stimulation experiment. Based on ethnography and video analysis, the article traces a history of the local measurement procedure invented by the researchers in order to overcome the experimental uncertainty. The article aims to demonstrate (1) how reproducibility of the local procedure is achieved in the shop floor work of the practitioners and (2) how the procedure becomes normalized and questioned as incorrect in the course of experimental practice. It concludes that the difference between guidelines and practical actions is not problematic per se; what may be problematic is that researchers can be engaged in different working projects described by the same instruction.

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