Online unsupervised detection of structural changes using train–induced dynamic responses

Fe-14Mn-6Si-9Cr-5Ni (wt. %) shape memory alloys (SMAs) were produced by powder metallurgy (PM) combined with Mechanical Alloying (MA). The specimens were pressed and sintered under Ar atmosphere from as blended powders as well as from mixtures of as blended and 10, 20, 30 and 40 vol. % MA’ed powders, respectively. The five groups of sintered specimens were hot-rolled, spark-erosion cut and solution treated at five temperatures (923, 1023, …, 1373K/ 300 s/ water). Tensile loading-unloading tests were performed in order to obtain stress-induced martensite at different pre-straining degrees. The static responses of the twenty five types of specimens were evaluated by means of the surface areas under unloading curve (E2) and between loading and unloading curves (E1) which were used for determining static internal friction, Q-1. The dynamic responses of the undeformed specimens were determined by Dynamic Mechanical Analysis (DMA) performed at room temperature with a three-point-bending specimen holder in strain sweep mode. The structure of the twenty five specimens was analyzed X-ray diffraction. The effects of MA fraction were correlated with static and dynamic responses via structural changes.

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Numerical and Experimental Evaluation of Structural Changes Using Sparse Auto-Encoders and SVM Applied to Dynamic Responses

Applied Sciences ◽

10.3390/app112411965 ◽

2021 ◽

Vol 11 (24) ◽

pp. 11965

Author(s):

Rafaelle Piazzaroli Finotti ◽

Flávio de Souza Barbosa ◽

Alexandre Abrahão Cury ◽

Roberto Leal Pimentel

Keyword(s):

Structural Changes ◽

Learning Algorithm ◽

Main Idea ◽

Dynamic Responses ◽

Support Vector ◽

Beam Model ◽

Vibration Data ◽

Deep Learning Algorithm ◽

Detection Approach

The present work evaluates the deep learning algorithm called Sparse Auto-Encoder (SAE) when applied to the characterization of structural anomalies. This study explores the SAE’s performance in a supervised damage detection approach to consolidate its application in the Structural Health Monitoring (SHM) field, especially when dealing with real-case structures. The main idea is to use the SAE to extract relevant features from the monitored signals and the well-known Support Vector Machine (SVM) to classify such characteristics within the context of an SHM problem. Vibration data from a numerical beam model and a highway viaduct in Brazil are considered to assess the proposed approach. In both analyzed examples, the efficiency of the implemented methodology achieved more than 99% of correct damage structural classifications, supporting the conclusion that SAE can extract relevant characteristics from dynamic signals that are useful for SHM applications.

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Progressive Damage Detection/Diagnosis on Composite Using Electromechanical Impedance Spectroscopy

Volume 1: Advances in Aerospace Technology; Energy Water Nexus; Globalization of Engineering; Posters ◽

10.1115/imece2011-63914 ◽

2011 ◽

Cited By ~ 2

Author(s):

Lingyu Yu ◽

Matthieu Gresil ◽

Patrick Pollock ◽

Michael Sutton

Keyword(s):

Impedance Spectroscopy ◽

Structural Damage ◽

Structural Changes ◽

Dynamic Responses ◽

Bonding Layer ◽

Structural Dynamic ◽

Electromechanical Impedance ◽

Damage Progression ◽

Electromechanical Transduction ◽

Piezoelectric Wafer

Electromechanical impedance approach infers the structural dynamic characteristics at relatively high frequencies by using self-sensing piezoelectric wafer elements. Structural damage can be detected by comparing structural dynamic responses of damaged and undamaged structures. This paper presents an ongoing effort using piezoelectric wafer sensors to measure structural electromechanical impedance response under tensile loading and quantitatively correlate the measurements with damage progression. The purpose is not only to develop a better understanding of the damage progression in composite materials, but also to establish a relationship between electromechanical impedance measurements with local material damage progression. Multi-physics finite element codes are used to simulate the electromechanical resonance of a free piezoelectric wafer sensor to better understand the effect of electromechanical transduction. The effects on impedance measurement from bonding layer degradation and PWAS degradation are also studied. Our study confirms that the EMI changes are related to very small amount material or structural changes, indicating that electromechanical impedance spectroscopy offers a potential for detection of the progression of small damage at the material level.

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Fine Structural Changes in the Microvasculature of the Mouse Pinna: Aging and Radiation Injury

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100050287 ◽

1974 ◽

Vol 32 ◽

pp. 54-55

Author(s):

S. Phyllis Steamer ◽

Rosemarie L. Devine

Keyword(s):

Structural Changes ◽

Radiation Treatment ◽

Arterial Stenosis ◽

Ultrastructural Changes ◽

Vascular Effects ◽

Microvascular Changes ◽

Surrounding Connective Tissue ◽

Fission Neutrons ◽

Total Body

The importance of radiation damage to the skin and its vasculature was recognized by the early radiologists. In more recent studies, vascular effects were shown to involve the endothelium as well as the surrounding connective tissue. Microvascular changes in the mouse pinna were studied in vivo and recorded photographically over a period of 12-18 months. Radiation treatment at 110 days of age was total body exposure to either 240 rad fission neutrons or 855 rad 60Co gamma rays. After in vivo observations in control and irradiated mice, animals were sacrificed for examination of changes in vascular fine structure. Vessels were selected from regions of specific interest that had been identified on photomicrographs. Prominent ultrastructural changes can be attributed to aging as well as to radiation treatment. Of principal concern were determinations of ultrastructural changes associated with venous dilatations, segmental arterial stenosis and tortuosities of both veins and arteries, effects that had been identified on the basis of light microscopic observations. Tortuosities and irregularly dilated vein segments were related to both aging and radiation changes but arterial stenosis was observed only in irradiated animals.

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Evaluation of single-electron movies of glutamine synthetase molecules

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100075191 ◽

1983 ◽

Vol 41 ◽

pp. 280-281

Author(s):

W. Kunath ◽

E. Zeitler ◽

M. Kessel

Keyword(s):

Electron Microscope ◽

Glutamine Synthetase ◽

Electron Irradiation ◽

Structural Damage ◽

Structural Changes ◽

Single Electron ◽

Continuous Series ◽

Digital Recording ◽

Recording Device ◽

Low Exposure

The features of digital recording of a continuous series (movie) of singleelectron TV frames are reported. The technique is used to investigate structural changes in negatively stained glutamine synthetase molecules (GS) during electron irradiation and, as an ultimate goal, to look for the molecules' “undamaged” structure, say, after a 1 e/Å2 dose.The TV frame of fig. la shows an image of 5 glutamine synthetase molecules exposed to 1/150 e/Å2. Every single electron is recorded as a unit signal in a 256 ×256 field. The extremely low exposure of a single TV frame as dictated by the single-electron recording device including the electron microscope requires accumulation of 150 TV frames into one frame (fig. lb) thus achieving a reasonable compromise between the conflicting aspects of exposure time per frame of 3 sec. vs. object drift of less than 1 Å, and exposure per frame of 1 e/Å2 vs. rate of structural damage.

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Fine Structural Changes in the Adenohypophyses of Rats Following Destruction of the Pituitary Stalk

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100079917 ◽

1977 ◽

Vol 35 ◽

pp. 496-497

Author(s):

K. Kovacs ◽

E. Horvath ◽

J. M. Bilbao ◽

F. A. Laszlo ◽

I. Domokos

Keyword(s):

Structural Changes ◽

Tissue Injury ◽

Anterior Lobe ◽

Uranyl Acetate ◽

Male Rats ◽

Pituitary Stalk ◽

Sequence Of Events ◽

Pituitary Glands ◽

Electrolytic Lesions ◽

Ultrathin Sections

Electrolytic lesions of the pituitary stalk in rats interrupt adenohypophysial blood flow and result in massive infarction of the anterior lobe. In order to obtain a deeper insight into the morphogenesis of tissue injury and to reveal the sequence of events, a fine structural investigation was undertaken on adenohypophyses of rats at various intervals following destruction of the pituitary stalk.The pituitary stalk was destroyed electrolytically, with a Horsley-Clarke apparatus on 27 male rats of the R-Amsterdam strain, weighing 180-200 g. Thirty minutes, 1,2,4,6 and 24 hours after surgery the animals were perfused with a glutaraldehyde-formalin solution. The skulls were then opened and the pituitary glands removed. The anterior lobes were fixed in glutaraldehyde-formalin solution, postfixed in osmium tetroxide and embedded in Durcupan. Ultrathin sections were stained with uranyl acetate and lead citrate and investigated with a Philips 300 electron microscope.

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Membrane Changes in Polymorphonuclear Leukocytes During Ionophore (A23187) - Induced Lysosomal Release

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s042482010007984x ◽

1977 ◽

Vol 35 ◽

pp. 482-483

Author(s):

P.L. Moore ◽

P.L. Sannes ◽

H.L. Bank ◽

S.S. Spicer

Keyword(s):

Structural Changes ◽

Calcium Release ◽

Clear Understanding ◽

Ionophore A23187 ◽

Enzyme Release ◽

Extracellular Medium ◽

Pmn Leukocytes ◽

Intracellular Ion Concentrations ◽

Membrane Changes ◽

Pmn Leukocyte

It is thought that calcium and/or magnesium may play important roles in polymorphonuclear (PMN) leukocyte functions such as chemotaxis, adhesion and phagocytosis. Yet, a clear understanding of the biological roles of these ions has awaited the development of techniques which permit a selective alteration of intracellular ion concentrations. Recently, treatment of cells with the ionophore A23187 has been used to alter intracellular divalent cation concentrations. This ionophore is a lipid soluble antibiotic produced by Streptomyces chartreusensis that complexes with both calcium and magnesium (3) and is believed to carry these ions across biological membranes (4). Biochemical investigations of human PMN leukocytes demonstrate that cells treated with A23187 and extracellular calcium release their lysosomal enzymes into the extracellular medium without rupturing and releasing their soluble cytoplasmic enzymes (5,6). The aim of the present study and and a companion report (7) was to investigate the structural changes that occur in leukocytes during ionophore-induced lysosomal enzyme release.

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The Reaction of Brain Structures with OsO4-Zinc-Iodide Stain

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100065419 ◽

1971 ◽

Vol 29 ◽

pp. 272-273

Author(s):

Werner J. Niklowitz

Keyword(s):

Electron Microscope ◽

Structural Changes ◽

Mossy Fiber ◽

Toxic Metal ◽

Staining Technique ◽

Brain Structures ◽

Oxidase Inhibitor ◽

Fiber Layer ◽

Hippocampal Tissue ◽

Zinc Iodide

After intoxication of rabbits with certain substances such as convulsant agents (3-acetylpyridine), centrally acting drugs (reserpine), or toxic metal compounds (tetraethyl lead) a significant observation by phase microscope is the loss of contrast of the hippocampal mossy fiber layer. It has been suggested that this alteration, as well as changes seen with the electron microscope in the hippocampal mossy fiber boutons, may be related to a loss of neurotransmitters. The purpose of these experiments was to apply the OsO4-zinc-iodide staining technique to the study of these structural changes since it has been suggested that OsO4-zinc-iodide stain reacts with neurotransmitters (acetylcholine, catecholamines).Domestic New Zealand rabbits (2.5 to 3 kg) were used. Hippocampal tissue was removed from normal and experimental animals treated with 3-acetylpyridine (antimetabolite of nicotinamide), reserpine (anti- hypertensive/tranquilizer), or iproniazid (antidepressant/monamine oxidase inhibitor). After fixation in glutaraldehyde hippocampal tissue was treated with OsO4-zinc-iodide stain and further processed for phase and electron microscope studies.

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Embedding Procedure for Water Swollen Samples

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s042482010006951x ◽

1970 ◽

Vol 28 ◽

pp. 504-505

Author(s):

Ann M. Thomas ◽

Virginia Shemeley

Keyword(s):

Electron Microscopy ◽

Transmission Electron Microscopy ◽

Ion Exchange ◽

Structural Changes ◽

Cross Linking ◽

Ion Exchange Resins ◽

Transmission Electron ◽

First Pass ◽

Exchange Resins

Those samples which swell rapidly when exposed to water are, at best, difficult to section for transmission electron microscopy. Some materials literally burst out of the embedding block with the first pass by the knife, and even the most rapid cutting cycle produces sections of limited value. Many ion exchange resins swell in water; some undergo irreversible structural changes when dried. We developed our embedding procedure to handle this type of sample, but it should be applicable to many materials that present similar sectioning difficulties.The purpose of our embedding procedure is to build up a cross-linking network throughout the sample, while it is in a water swollen state. Our procedure was suggested to us by the work of Rosenberg, where he mentioned the formation of a tridimensional structure by the polymerization of the GMA biproduct, triglycol dimethacrylate.

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Anisotropic radiation damage of potassium tetracyano platinate (KCP)

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100109100 ◽

1978 ◽

Vol 36 (1) ◽

pp. 392-393

Author(s):

N. Uyeda ◽

E. J. Kirkland ◽

B. M. Siegel

Keyword(s):

Electron Diffraction ◽

Radiation Damage ◽

Structural Changes ◽

High Resolution Electron Microscopy ◽

Radiation Sensitivity ◽

Resolution Electron ◽

Damage Process ◽

Diffraction Patterns ◽

Fading Rate

The direct observation of structural change by high resolution electron microscopy will be essential for the better understanding of the damage process and its mechanism. However, this approach still involves some difficulty in quantitative interpretation mostly being due to the quality of obtained images. Electron diffraction, using crystalline specimens, has been the method most frequently applied to obtain a comparison of radiation sensitivity of various materials on the quantitative base. If a series of single crystal patterns are obtained the fading rate of reflections during the damage process give good comparative measures. The electron diffraction patterns also render useful information concerning the structural changes in the crystal. In the present work, the radiation damage of potassium tetracyano-platinate was dealt with on the basis two dimensional observation of fading rates of diffraction spots. KCP is known as an ionic crystal which possesses “one dimensional” electronic properties and it would be of great interest to know if radiation damage proceeds in a strongly asymmetric manner.

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