Your search keyword '"Transversal vibration"' showing total 35 results

1. Study on Tightening, Anti-Loosening, and Fatigue Resistance Performances of Bolted Joints with Different Anti-Loosening Washers and Nuts.

Author

Zhao, Penghao, Liu, Jianhua, Gong, Hao, and Xue, Fenqi

Subjects

FATIGUE limit, BOLTED joints, FINITE element method

Abstract

Loosening failure of bolted joints often occurs in a vibration environment. This may induce the separation of clamped components and even result in catastrophic consequences in certain situations. Various anti-loosening bolted connections have been developed and widely applied to prevent loosening. Tightening and fatigue resistance performances are also two important characteristics of anti-loosening bolted connections. However, a comprehensive comparison study of the tightening, anti-loosening, and fatigue resistance performances of typical anti-loosening bolted connections is lacking, meaning that there is a lack of material to assist in the selection of anti-loosening bolted connections in engineering. In this study, accurate three-dimensional finite element models of typical anti-loosening bolted connections with the forms of washers or nuts are established. The processes of tightening, vibration-induced loosening, and fatigue are simulated via finite element analysis (FEA). Based on the results of FEA, the tightening, anti-loosening, and fatigue resistance performances of regular bolted joints and several anti-loosening bolted connections are comprehensively compared. The results reveal that bolted joints installed with both a variable-diameter nut and an eccentric double nut are difficult to tighten. We confirm that the researched structures all have superior anti-loosening capacities compared to regular bolted joints. Additionally, the results show that the regular bolted joint achieved the worst fatigue resistance performance, i.e., the application of anti-loosening bolted connections improves fatigue resistance. Finally, the effects of preload distributions on the two nuts in bolted joints with double nuts are discussed in terms of tightening, anti-loosening, and fatigue resistance performances. [ABSTRACT FROM AUTHOR]

Published

2023

2. Concept of radial slippage propagation triggering self-loosening and optimisation design of novel anti-loosening structures.

Author

Gong, Hao, Liu, Jianhua, Feng, Huihua, and Huang, Jiayu

Subjects

BOLTED joints, FINITE element method, RELATIVE motion, MATHEMATICAL optimization, STRESS fractures (Orthopedics)

Abstract

Self-loosening of bolted joints can occur in a vibration environment, and it may induce bolt fatigue fracture with catastrophic consequences. It is essential to clarify the self-loosening mechanism, based on which novel anti-loosening thread structures can be developed. In this paper, we propose the concept of radial slippage propagation and provide new insights into the self-loosening process. The new theory states that the slippage along the radial direction of the thread surface induces more slippage areas (slippage propagation), and self-loosening occurs due to the dynamic evolution and propagation of contact states on the thread and bearing surfaces with an increase in the number of vibration cycles. Finite element analysis (FEA) was used to validate the propagation process of slippage areas on the thread surface. A novel bolted joint with step thread engagement was developed, which could prevent the occurrence of relative motion of the external and internal threads in the radial direction and thus block slippage propagation. A three-dimensional (3D) finite element model (FEM) of the novel thread structure was established, and a test specimen was manufactured using two special tools. FEA and experiments validated its superior anti-loosening and anti-fatigue performances, and the convenience of installation and removal. Experimental validation of the radial slippage propagation theory and the performance optimisation of the step-thread structure should be performed in the future. [ABSTRACT FROM AUTHOR]

Published

2023

3. Study on Tightening, Anti-Loosening, and Fatigue Resistance Performances of Bolted Joints with Different Anti-Loosening Washers and Nuts

Author

Penghao Zhao, Jianhua Liu, Hao Gong, and Fenqi Xue

Subjects

bolted joints, anti-loosening bolted connections, tightening, fatigue resistance, transversal vibration, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Loosening failure of bolted joints often occurs in a vibration environment. This may induce the separation of clamped components and even result in catastrophic consequences in certain situations. Various anti-loosening bolted connections have been developed and widely applied to prevent loosening. Tightening and fatigue resistance performances are also two important characteristics of anti-loosening bolted connections. However, a comprehensive comparison study of the tightening, anti-loosening, and fatigue resistance performances of typical anti-loosening bolted connections is lacking, meaning that there is a lack of material to assist in the selection of anti-loosening bolted connections in engineering. In this study, accurate three-dimensional finite element models of typical anti-loosening bolted connections with the forms of washers or nuts are established. The processes of tightening, vibration-induced loosening, and fatigue are simulated via finite element analysis (FEA). Based on the results of FEA, the tightening, anti-loosening, and fatigue resistance performances of regular bolted joints and several anti-loosening bolted connections are comprehensively compared. The results reveal that bolted joints installed with both a variable-diameter nut and an eccentric double nut are difficult to tighten. We confirm that the researched structures all have superior anti-loosening capacities compared to regular bolted joints. Additionally, the results show that the regular bolted joint achieved the worst fatigue resistance performance, i.e., the application of anti-loosening bolted connections improves fatigue resistance. Finally, the effects of preload distributions on the two nuts in bolted joints with double nuts are discussed in terms of tightening, anti-loosening, and fatigue resistance performances.

Published

2023

4. Concept of radial slippage propagation triggering self-loosening and optimisation design of novel anti-loosening structures

Author

Hao Gong, Jianhua Liu, Huihua Feng, and Jiayu Huang

Subjects

bolted joint, self-loosening, slippage propagation, step thread, transversal vibration, Mechanical engineering and machinery, TJ1-1570

Abstract

Abstract Self-loosening of bolted joints can occur in a vibration environment, and it may induce bolt fatigue fracture with catastrophic consequences. It is essential to clarify the self-loosening mechanism, based on which novel anti-loosening thread structures can be developed. In this paper, we propose the concept of radial slippage propagation and provide new insights into the self-loosening process. The new theory states that the slippage along the radial direction of the thread surface induces more slippage areas (slippage propagation), and self-loosening occurs due to the dynamic evolution and propagation of contact states on the thread and bearing surfaces with an increase in the number of vibration cycles. Finite element analysis (FEA) was used to validate the propagation process of slippage areas on the thread surface. A novel bolted joint with step thread engagement was developed, which could prevent the occurrence of relative motion of the external and internal threads in the radial direction and thus block slippage propagation. A three-dimensional (3D) finite element model (FEM) of the novel thread structure was established, and a test specimen was manufactured using two special tools. FEA and experiments validated its superior anti-loosening and anti-fatigue performances, and the convenience of installation and removal. Experimental validation of the radial slippage propagation theory and the performance optimisation of the step-thread structure should be performed in the future.

Published

2022

5. Unravelling the influence of vibration on material removal and microstructure evolution in ultrasonic transversal vibration-assisted helical milling of Ti-6Al-4V holes.

Author

Geng, Daxi, Sun, Zhefei, Liu, Yihang, Liu, Lianxing, Ying, Enze, Cai, Jun, Jiang, Xinggang, and Zhang, Deyuan

Subjects

*TRANSVERSAL lines, *AIRFRAMES, *ULTRASONICS, *MICROSTRUCTURE, *MATERIAL plasticity

Abstract

Helical milling (HM) is a developing hole-making technology in aircraft assembly. Nevertheless, fundamental problems, such as tool deflection and chip evacuation, when helical milling small-diameter or deep holes still exist. To solve these problems and improve the machining quality of Ti-6Al-4V holes, an ultrasonic transversal vibration-assisted helical milling (UTVHM) method is developed. The motion paths of the peripheral cutting edges are established, and the tool-workpiece contact behaviour is analysed to explore how transversal vibration affects the material removal of UTVHM. The hole surface strengthening mechanisms in the UTVHM were revealed and explored. Moreover, the verification experiments were conducted, and the results suggested that the transverse force and thrust force in the UTVHM reduced up to 38.1% and 13.9%, respectively, because of the intermittent cutting mode realised in the UTVHM compared to HM. Significantly improved surface integrity, excellent chip evacuation conditions, and narrow hole geometric tolerances were obtained using UTVHM. A maximum depth of 9.7 µm for the plastic deformation layer was generated in the UTVHM, which was 6.5 times that of HM. The maximum increases in surface microhardness and residual compressive stresses in the UTVHM were 184.7% and 150.2%, respectively. Electron backscattered diffraction (EBSD) analysis showed that a higher plastic strain and smaller grain size occurred in the UTVHM. This study enhances the understanding of the surface and subsurface formation and material removal mechanisms of UTVHM, providing a theoretical basis and practical method for machining holes with high precision and excellent surface integrity in aircraft structures. [Display omitted] • A novel hole-making method of ultrasonic transversal vibration-assisted helical milling (UTVHM) is proposed. • UTVHM exhibits superior cutting performance compared to conventional helical milling. • Lower cutting force and higher hole precision are obtained in UTVHM. • Strengthening effect for the machined surface is realized in UTVHM. [ABSTRACT FROM AUTHOR]

Published

2024

6. Introducing transversal vibration in twist drilling: Material removal mechanisms and surface integrity.

Author

Sun, Zhefei, Geng, Daxi, Guo, Hailin, Zhang, Qun, Liu, Yihang, Liu, Lianxing, Jiang, Xinggang, and Zhang, Deyuan

Subjects

*TRANSVERSAL lines, *MATERIAL plasticity, *RESIDUAL stresses, *SURFACE forces, *CUTTING (Materials), *THRUST

Abstract

In twist drilling, severe extrusion is unavoidable at the chisel edge zone and results in high thrust force and poor surface integrity. Traditional axial vibration-assisted twist drilling only modifies the material removed from the continuous extrusion to the interrupted extrusion for the chisel edge centre, and must satisfy the chip-breaking conditions to ensure that the cutting edge is periodically separated from the workpiece. Hence, transversal vibration, has been introduced in twist drilling to overcome the severe extrusion behaviour of the chisel edges of the twist drills, referred to as ultrasonic transversal vibration-assisted drilling (UTVD). Theoretical models revealed that the material removal behaviour of the chisel edge centre changed from extrusion in CD to cutting in UTVD. Experiments were performed on UTVD of Ti-6Al-4V to confirm the feasibility with this novel method. The results indicated that transverse vibration significantly affected the thrust force and torque, and the maximum decline was 29.4% and 31.5%, respectively, compared with CD. Generated chips verified the material removal behaviour of the chisel edge centre zone changed from extrusion in CD to cutting in UTVD. Therefore, the hole quality and surface integrity were improved significantly by UTVD. Deeper plastic deformation (∼2.5 times), higher surface microhardness and compressive residual stress were realised using UTVD. This study enhanced the understanding of material removal and formation mechanisms of the surface and subsurface in UTVD, thereby providing a novel method and theoretical basis for the high-performance twist drilling of difficult-to-cut alloys. [ABSTRACT FROM AUTHOR]

Published

2024

7. Transversal vibration analysis of the upper span of nonlinear closed-loop track systems.

Author

Wang, Pingxin, Yu, Hailong, Rui, Xiaoting, Zhang, Jianshu, and Gu, Junjie

Subjects

*CLOSED loop systems, *MULTIBODY systems, *TRANSFER matrix, *ENGINEERING design, *DYNAMICAL systems, *REQUIREMENTS engineering

Abstract

• An improved Riccati transfer matrix method for closed-loop systems is developed. • A spatial dynamics model for a tracked vehicle is established. • Two simplified contact models between the sprocket, track and rollers are proposed. • The effect of the track pre-tension on the transversal vibration of upper track is analyzed. In order to analyze the effect of track pre-tension on the transversal vibration of the upper track, a multibody dynamics model of a tracked vehicle needs to be established. In view of the complex structure of tracked vehicles, the computational efficiency of conventional methods cannot meet engineering design requirements. In this paper, the Riccati Transfer Matrix Method for nonlinear closed-loop multibody systems is proposed and applied to the modeling and simulation of tracked vehicle systems. It avoids the overall dynamic equations of the system and achieves efficient computation with a smaller matrix scale. By selecting accelerations and forces as elements of the state vectors instead of coordinates and forces, linearization is avoided. The track chain is cut in a revolute joint. Its effect on the closed-loop system is represented by a set of constraint equations and internal constraint forces. An improved Riccati transformation for closed-loop systems is proposed to connect the internal force and acceleration parts in the state vector with the system constraint internal forces. The track pre-tension can be adjusted by moving the position of the idler relative to the chassis. The root mean square of vertical acceleration of mid-span with respect to the chassis is selected to evaluate the transversal vibration of the upper track. Simulation of a tracked vehicle driving on different road conditions is carried out with different idler displacements. Finally, a reasonable adjustment strategy for the track tensioner is proposed corresponding to different running conditions. [ABSTRACT FROM AUTHOR]

Published

2020

8. Experimental study of the nonlinear characteristics of an axially moving string.

Author

Xia, Chunlin, Wu, Yangfang, and Lu, Qianqian

Subjects

*CHAOS theory, *TRANSVERSAL lines, *NONLINEAR analysis, *TIME series analysis, *HILBERT-Huang transform

Abstract

This paper presents an experimental study of the nonlinear characteristics of an axially moving string. An experimental system with a simple configuration, which is similar to a practical application, was built. Two laser sensors were used to monitor the vertical and horizontal vibrations of the moving string under different conditions. Using the Hilbert-Huang transform method, the detailed results of a typical measured data series, which include intrinsic mode decomposition, Hilbert spectrum and marginal spectrum, are introduced. For comparison, marginal spectra for almost all test cases are also given. Based on the results, several observed nonlinear phenomena, which include whirling motion, resonances, quasiperiodical and a beating motion, torus doublings and one chaotic motion, are presented. The quantitative nonlinear vibrating details and the observed rich behaviors help explain the great complexity of a single moving string. [ABSTRACT FROM AUTHOR]

Published

2015

9. Vibration and stability of rotating annular disks composed of different materials.

Author

Maretic, R., Glavardanov, V., and Milosevic-Mitic, V.

Subjects

*ROTATING disks, *MATERIALS analysis, *VIBRATION (Mechanics), *STABILITY theory, *DIFFERENTIAL equations, *MODULUS of elasticity

Abstract

Transverse vibrations of a rotating annular disk composed of two annular disks of different materials are studied in this paper. The disk is clamped at the inner edge, while at the outer edge is free. Differential equations of small vibrations are solved exactly by series expansion using the Frobenius method. The solutions are separately presented for three cases corresponding to vibration with zero, one or two nodal diameters. The influence of angular velocity, moduli of elasticity and the volume densities of the materials of disks on vibration frequency is analyzed. Vibration frequencies are obtained for the disk composed of aluminum and steel. Influences of the inner radius and the radius of the connection on the vibration frequencies are also obtained. [ABSTRACT FROM AUTHOR]

Published

2015

10. Estimation of properties of Mandioqueira wood by natural frequency of vibration and apparent density

Author

Diogo Aparecido Lopes Silva, Túlio Hallak Panzera, Alfredo M. P. G. Dias, Franscisco Antonio Rocco Lahr, Larissa Soriani Zanini Ribeiro Soares, and André Luis Christoforo

Subjects

transversal vibration, Mandioqueira, correlation, vibração transversal, General Physics and Astronomy, General Materials Science, characterization, General Chemistry, correlação, caracterização, ESTRUTURAS

Abstract

RESUMO Por ser um material anisotrópico e heterogêneo, o uso racional da madeira em estruturas requer o conhecimento de uma série de propriedades físicas e mecânicas. Parte das propriedades é obtida com o uso de equipamentos de grande porte, geralmente encontrados em poucos centros de pesquisas. A vibração transversal consiste em um método de ensaio não destrutivo utilizado na determinação da rigidez da madeira, em função agilidade proporcionada na realização dos ensaios. Essa pesquisa objetivou, com base na obtenção de dezessete propriedades entre físicas e mecânicas da madeira de Mandioqueira [Ruizterania albiflora (Warm.) Marc. -Berti, Vochysiaceae], espécie pouco conhecida na literatura nacional e internacional, avaliar a indicação de uso e relacionar suas propriedades físicas (estabilidade dimensional) e mecânicas (resistência e rigidez) com a densidade aparente e com a frequência natural do ensaio de vibração transversal por meio de modelos de regressão. Os resultados indicam o uso da madeira de Mandioqueira em estruturas, por apresentar propriedades equivalentes ou superiores às propriedades de outras comumente utilizadas na construção civil. Dos modelos de regressão, foram notadas fracas correlações entre a densidade e a frequência natural com as propriedades físico-mecânicas avaliadas, resultando em estimativas de baixa precisão. Entretanto, resultados mais abrangentes requerem maior número de espécies, e consistirão em objetivos de pesquisas futuras. ABSTRACT As it is an anisotropic and heterogeneous material, the rational use of wood in structures requires knowledge of a series of physical and mechanical properties. Part of the properties is obtained with the use of large equipment, generally found in a few research centers. Transverse vibration consists of a non-destructive test method used to determine the stiffness of the wood, due to the agility provided in carrying out the tests. This research aimed, based on obtaining seventeen physical and mechanical properties of Mandioqueira wood [Ruizterania albiflora (Warm.) Marc.- Berti, Vochysiaceae], a little known species in national and international literature, evaluate the indication of use and relate its properties physical (dimensional stability) and mechanical (strength and stiffness) to the apparent density and to the natural frequency of the transversal vibration test by means of regression models. The results indicate the use of Mandioqueira wood in structures, as it has properties equivalent or superior to the properties of others commonly used in civil construction. From the regression models, weak correlations were observed between density and natural frequency with the evaluated physical-mechanical properties, resulting in low precision estimates. However, more comprehensive results require a greater number of species, and will consist in the objectives for future research.

Published

2021

11. Nonlinear Structural Analysis

Author

Olga Lebed and Igor A. Karnovsky

Subjects

Vibration, Physics, Nonlinear system, Superposition principle, Large deformation, Transversal vibration, Mechanics, Physics::Chemical Physics, Axial force, Statics, Stability (probability)

Abstract

This chapter deals with some simplest nonlinear problems of the statics, stability, and vibrations of deformable systems.

Published

2021

12. Derivation of losses from impedance spectrum for contour modes of ceramic resonator

Author

Vijay Bijalwan, Filip Solař, Jiří Erhart, and Karel Maca

Subjects

Materials science, genetic structures, bczt, Acoustics, PZT, Clay industries. Ceramics. Glass, 02 engineering and technology, 01 natural sciences, Square (algebra), Physics::Fluid Dynamics, Condensed Matter::Materials Science, Quality (physics), 0103 physical sciences, Ceramic resonator, 010302 applied physics, piezoelectric ceramic, Losses, pzt, Mode (statistics), mechanical quality factor, Impedance spectrum, 021001 nanoscience & nanotechnology, losses, Computer Science::Other, TP785-869, BCZT, Ceramics and Composites, Transversal vibration, 0210 nano-technology

Abstract

Method of loss coefficients calculation from mechanical quality factors of transversal vibration modes is presented. Theoretical formulae are derived for the contour mode of thin square plate and width extensional mode of a thin rectangular plate. Mechanical quality factors are expressed as a function of loss coefficients for ceramic with known Poisson’s ratio. Measured impedance spectra are compared with calculations and used for the characterization of losses on lead-free BCZT and lead-based PZT piezoelectric ceramics. Full set of loss coefficients active for planar vibration modes is characterized on a single sample. Mechanical quality factor at resonance is the same for the contour extensional mode of a thin square plate and for the width extensional mode of a thin rectangular plate. Loss coefficients reach the biggest values for the piezoelectric losses, followed by the dielectric and elastic losses. Our results show that the BCZT ceramics have losses of the same magnitude as soft PZT ceramic.

Published

2020

13. Analysis of natural frequency of flexural vibrations of a single-span beam with the consideration of Timoshenko effect

Author

Jerzy Jaroszewicz and Krzysztof Łukaszewicz

Subjects

Physics, business.industry, Natural frequency, 030206 dentistry, 02 engineering and technology, Structural engineering, Span (engineering), Finite element method, 03 medical and health sciences, 020303 mechanical engineering & transports, 0302 clinical medicine, 0203 mechanical engineering, Transversal vibration, Flexural vibration, Boundary value problem, business, Beam (structure)

Abstract

This paper presents general solution of boundary value problem for constant cross-section Timoshenko beams with four typical boundary conditions. The authors have taken into consideration rotational inertia and shear strain by using the theory of influence by Cauchy function and characteristic series. The boundary value problem of transverse vibration has been formulated and solved. The characteristic equations considering the exact bending theory have been obtained for four cases: the clamped boundary conditions; a simply supported beam and clamped on the other side; a simply supported beam; a cantilever beam. The obtained estimators of fundamental natural frequency take into account mass and elastic characteristics of beams and Timoshenko effect. The results of calculations prove high convergence of the estimators to the exact values which were calculated by Timoshenko who used Bessel functions. Characteristic series having an alternating sign power series show good convergence. As it is shown in the paper, the error lower than 5% was obtained after taking into account only two first significant terms of the series. It was proved that neglecting the Timoshenko effect in case of short beams of rectangular section with the ratio of their length to their height equal 6 leads to the errors of calculated natural frequency: 5%÷12%.

Published

2018

14. PARTICLE IMAGE VELOCIMETRY FOR ESTIMATING THE YOUNG’S MODULUS OF WOOD SPECIMENS

Author

Rodrigo Allan Pereira, Fernando Pujaico Rivieira, José Reinaldo Moreira da Silva, and Taiane Oliveira Guedes

Subjects

Measure techniques, Universal testing machine, biology, Modulus, Forestry, Young's modulus, Modulus of elasticity, Eucalyptus cloeziana, biology.organism_classification, PIV, symbols.namesake, Particle image velocimetry, Solid mechanics, symbols, Transversal vibration, Composite material, Mathematics

Abstract

Proposing technological innovations in the investigation of the structure and behaviour of wood is important to optimize its use. The assimilation of methods diffused in other areas, such as particle image velocimetry (PIV), can allow a rich range of information for different aspects. The aim of this study was to estimate the Young’s modulus using the PIV technique, independently of the wood density. The Young modulus value was obtained by universal testing machine, transversal vibration and PIV technique. Cedrela spp. and Eucalyptus cloeziana wood specimens were analyzed and their Young modulus were compared and correlated. The PIV technique presented mean Young’s modulus values statistically equal to those of the universal testing machine. The standard error of prediction from PIV approach was 0.46 and 0.97 GPa for Young’s modulus estimates for Cedrela spp. and Eucalyptus cloeziana wood, respectively.

Published

2019

15. Universal experimental relation for natural friquencies of transversal vibration of stubby free-free beams

Author

D. M. Dimitrov, Victor Alexeevich Chirikov, and K. P. Kostov

Subjects

Vibration, Classical mechanics, Basis (linear algebra), Relation (database), Differential equation, Transversal (combinatorics), Transversal vibration, Natural frequency, Approximate solution, Mathematics

Abstract

On the basis of set of experimental tests a universal experimental relation for determination of natural transversal frequencies of short bulky bars with free ends is established. It is shown that the relation totally corresponds to approximate solution of the notorious differential equation obtained by Timoshenko for transversal vibration of stubby beams. The relation gives an opportunity for brief calculation of the transversal natural frequencies of stubby beams by avoiding complex and hard algorithms of vibration analysis. The achieved relation can be successfully used for control purposes of robot arms articulation, etc. An option of new differential equation for stubby both ends pinned beams transversal vibration is discussed.

Published

2015

16. Prediction of Oak Wood Mechanical Properties Based on the Statistical Exploitation of Vibrational Response

Author

Younes Faydi, Robert Collet, Guillaume Pot, Loïc Brancheriau, Laboratoire Bourguignon des Matériaux et Procédés (LABOMAP), Arts et Métiers Sciences et Technologies, HESAM Université (HESAM)-HESAM Université (HESAM), and Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)

Subjects

K50 - Technologie des produits forestiers, 0106 biological sciences, Engineering, Young's modulus, 01 natural sciences, Eigen frequency, partial least squares, Partial least squares regression, Waste Management and Disposal, media_common, biology, Mécanique: Mécanique des solides [Sciences de l'ingénieur], 04 agricultural and veterinary sciences, Structural engineering, wood mechanical properties, Propriété technologique, Méthode alternative, symbols, Transversal vibration, Quercus petraea, Quercus robur, Environmental Engineering, Testage non destructif, Bioengineering, [SPI.MECA.SOLID]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Solid mechanics [physics.class-ph], Vibration, symbols.namesake, Flexural strength, oak, 010608 biotechnology, stepwise regression, media_common.cataloged_instance, acoustique, European union, Propriété physicochimique, 040101 forestry, business.industry, biology.organism_classification, Propriété mécanique, 0401 agriculture, forestry, and fisheries, U30 - Méthodes de recherche, business, vibration test

Abstract

International audience; In the European Union, timber is used in structural applications and must be graded with a Conformité Européene (CE) mark. To achieve standard, machine strength grading is used. A common technology for these machines is based on using the vibrational response of each wood board to estimate the timber modulus of elasticity and modulus of rupture. The first Eigen frequency is usually used to predict these mechanical properties. However, in heterogeneous wood species such as oak, this parameter is less correlated with mechanical properties. The current study proposes two new methods based on an extended exploitation of the vibrational response that predicts oak wood mechanical properties. The first method was based on the mechanical parameters deduced from several Eigen frequencies that were chosen with regards to a stepwise regression. The second method was based on the full vibrational spectrum and used a partial least squares method. The first method slightly improved the prediction of the modulus of elasticity compared with the first Eigen frequency in edgewise transversal vibration. Both methods significantly improved the prediction of the modulus of rupture.

Published

2017

17. Free vibration of truncated-cone columns

Author

Olga Szlachetka and J Jaworski

Subjects

Materials science, Analytical chemistry, Transversal vibration, Column (database)

Published

2014

18. EDGE glued panels grading through transversal vibration testing

Author

Carlito Calil Junior, Felipe Nascimento Arroyo, Carlito Calil Neto, Victor Almeida De Araujo, André Luis Christoforo, and Francisco Antonio Rocco Lahr

Subjects

040101 forestry, 0106 biological sciences, MADEIRA, Static bending, Materials science, business.industry, Dynamic modulus of elasticity, Young's modulus, 04 agricultural and veterinary sciences, Structural engineering, 01 natural sciences, symbols.namesake, Flexural strength, 010608 biotechnology, Dynamic modulus, Butt joint, symbols, 0401 agriculture, forestry, and fisheries, Transversal vibration, Composite material, Grading (engineering), business

Abstract

The Edge-Glued Panel is produced using sawn wood, i.e., lumber, with or without butt joints and edge-glued lumber. It can be composed with one layer, but the most common is with three layers (two external longitudinal and one transversal). This panel is used in Europe for furniture and forms of concrete structures. The resin applied in the gluing is based on urea-formaldehyde and phenol-formaldehyde. Due to the importance of this panel, this research aims to analyze the use of Transversal Vibration techniques for EGP grading. For this purpose, twelve EGP panels of three layers were produced and tested in order to determine the modulus of elasticity and modulus of rupture in static bending and dynamic modulus. The results showed nonexistent correlations among the dynamic modulus of elasticity with EGP density and between the modulus of rupture in static bending with the dynamic modulus, providing just a good correlation between statistic and dynamic modulus of elasticity.

Published

2016

19. Application of nondestructive ultrasound techniques, transverse vibration and stress-wave for timber evaluation

Author

Almir Sales and Marcela Candian

Subjects

Engineering, Ensaio não-destrutivo, Stress wave, business.industry, Ondas de tensão, Geography, Planning and Development, Ultrasound, Young's modulus, Structural engineering, symbols.namesake, Ultrasonic, Transverse vibration, Ultra-som, symbols, Transversal vibration, Ultrasonic sensor, Vibração transversal, Nondestructive testing, business

Abstract

Resumo Aplicação de técnicas não-destrutivas pode auxiliar no processo de avaliação da madeira, não sendo necessária a extração de corpos-de-prova. Entre as técnicas de avaliação mecânica, destacam-se as técnicas não-destrutivas de ultra-som e de vibração transversal. Com o avanço no uso das técnicas não-destrutivas, tornou-se possível o desenvolvimento de novas tecnologias, entre as quais se destaca a técnica de ondas de tensão, que permite a obtenção de imagem tomográfica da madeira. O objetivo deste trabalho foi verificar a acuracidade das técnicas de vibração transversal e ultra-som comparativamente aos valores obtidos em ensaios estáticos e a obtenção de imagem tomográfica a partir do emprego de ondas de tensão para a espécie Eucalyptus citriodora. Os valores obtidos de coeficiente de determinação para as técnicas de ultra-som (R² = 0,76) e vibração transversal (R² = 0,80) são significativos, demonstrando que essas são importantes ferramentas para a inferência do módulo de elasticidade da madeira. Os resultados permitem também verificar que a imagem tomográfica obtida com o emprego de ondas de tensão possibilita estimar a porcentagem da área deteriorada com adequada confiabilidade. Abstract The application of nondestructive techniques can assist in timber evaluation, without the need to extract specimens. Two of the main mechanic evaluation techniques are the nondestructive techniques of ultrasound and transversal vibration . The evolution in the use of nondestructive techniques has led to the development of new technologies, particularly the stress-wave technique, which allows the obtention of tomographic images of timber. The purpose of this study was to verify the accuracy of the ultrasonic and transverse vibration techniques in comparison with the values obtained from static tests and tomographic images obtained through the use of stress waves for Eucalyptus citriodora. The values of the coefficient of determination for the ultrasonic technique (R 2 = 0.76) and for the transverse vibration technique (R 2 = 0.80) were significant, demonstrating that the ultrasonic and transverse vibration techniques are important tools for the nondestructive inference of the modulus of elasticity of timber. The results also show that the tomographic images obtained through the use of the stress-wave technique allow the percentage of deteriorated area of timber to be estimated with adequate reliability.

Published

2009

20. TRANSVERSAL VIBRATION CONTROL FOR CATENARY POLES ON A HIGH SPEED RAILWAY BRIDGE

Author

Dominique Botton and Celine Anicotte

Subjects

Engineering, business.industry, Catenary, Transversal vibration, Structural engineering, business, Bridge (interpersonal)

Published

2015

21. On the convective instability of a horizontal binary mixture layer with Soret effect under transversal high frequency vibration

Author

A.K. Kolesnikov, Bela Myznikova, G. Z. Gershuni, and Jean Claude Legros

Subjects

Fluid Flow and Transfer Processes, Mechanical equilibrium, Materials science, Mechanical Engineering, Binary number, Thermodynamics, Rayleigh number, Mechanics, Condensed Matter Physics, Thermophoresis, law.invention, Convective instability, law, Transversal vibration, High frequency vibration, Spectral amplitude

Abstract

The stability of the mechanical equilibrium of a plane horizontal binary mixture layer with Soret effect in the presence of high frequency transversal vibration is studied. The asymptotic analysis for long-wave disturbances and the numerical solution of the spectral amplitude problem for cellular disturbance has shown that independently of properties of the binary mixture the effect of transversal vibration is always stabilizing. The critical values of Rayleigh number and the characteristics of critical disturbances are determined.

Published

1999

22. [Untitled]

Author

J. A. Sparenberg and BW Kooi

Subjects

business.industry, General Mathematics, General Engineering, Geometry, Horizontal plane, Median plane, Optics, Archer's paradox, Physics::Space Physics, C++ string handling, Arrow, Perpendicular, Transversal vibration, business, Astrophysics::Galaxy Astrophysics, Geology

Abstract

In ancient bows the grip of the bow was in the way of the arrow. The arrow needed to get round the bow while being accelerated; this phenomenon is called the ‘Archer's Paradox’. In the forties it was observed experimentally with high-speed cameras that the arrow vibrates in a horizontal plane perpendicular to the vertical median plane of the bow. These movements are started and controlled by the movements of the two points of contact with the bow, viz. the middle of the string in contact with the rear end of the arrow and the grip where the arrow slides along the bow. The latter contact imposes a moving-boundary condition. The numerically obtained results are satisfactorily in agreement with experimental data. The model can be used to estimate the drawing force of ancient bows of which only the contemporary arrows are available and also for the design of new archery equipment.

Published

1997

23. Stability of the transverse vibration of a thin prismatic rod subjected to a periodic longitudinal force

Author

K. N. Shevchenko

Subjects

symbols.namesake, Classical mechanics, Mathieu function, Transverse vibration, Mechanics of Materials, Mechanical Engineering, Thin wall, symbols, Transversal vibration, Mechanics, Stability (probability), Mathematics

Published

1993

24. Radiation generated during the uniform motion of an object in a randomly nonuniform elastic system

Author

A. V. Metrikin and A. I. Vesnitskii

Subjects

Physics, Optics, Mechanics of Materials, business.industry, Mechanical Engineering, Acoustics, Transversal vibration, Moving load, Random media, Radiation, Object (computer science), business, Motion (physics)

Published

1992

25. Dynamics of a nonideal hemispherical resonator with translational vibration of the base

Author

A. M. Pavlovskii and C. A. Sarapulov

Subjects

Physics, Mechanical Engineering, Acoustics, Dynamics (mechanics), Computational Mechanics, Base (geometry), Gyroscope, law.invention, Vibration, Resonator, Mechanics of Materials, law, Transversal vibration, Longitudinal vibration

Published

1991

26. Transverse vibration of completely-free elliptic and circular plates using orthogonal polynomials in the Rayleigh-Ritz method

Author

Bani Singh and Snehashish Chakraverty

Subjects

Rayleigh–Ritz method, Work (thermodynamics), Sequence, Mechanical Engineering, Mathematical analysis, Geometry, Condensed Matter Physics, Transverse vibration, Mechanics of Materials, Normal mode, Orthogonal polynomials, Transversal vibration, Shaping, General Materials Science, Civil and Structural Engineering, Mathematics

Abstract

The Rayleigh-Ritz method using characteristic orthogonal polynomials has been applied to study the problem of transverse vibration of completely-free elliptic and circular plates of uniform thickness. A sequence of successive approximations has been generated to work out the frequencies and mode shapes. The process is continued until at least the first four frequencies converge to five significant digits. It has been found that the results agree completely with the known results for a circular plate. A comparison has also been made with some known experimental and theoretical results for an elliptic plate.

Published

1991

27. Using the Finite Elements Method (FEM) for Nanotechnology Education. A rectangular cantilever as a mass sensor

Author

H Aya Baquero

Subjects

History, Engineering, Cantilever, Nanotechnology education, Silicon, business.industry, Resonance, chemistry.chemical_element, Context (language use), Structural engineering, Finite element method, Computer Science Applications, Education, chemistry, Transversal vibration, Mass sensor, business

Abstract

The Finite Element Method FEM can be used in the context of physics engineering education, particularly in nanotechnology training. Cantilevers and cantilevers arrays have been implemented as sensors within lots of applications. In the present paper, FEM was used to assess validity of basic models where cantilevers are used as mass sensors. Resonance frequency of a cantilever transversal vibration was found; this was a silicon one-side clamped cantilever. A number of minor mass elements Am was added on the cantilever's free side. Then in each case, a new resonance frequency was found; this led to obtain the Am values from shifts of resonance frequencies. Finally, those values were compared with CAD model values.

Published

2015

28. Horizontal parametric resonant vibration of suspension footbridges

Author

Jacek Grosel and Zbigniew Wójcicki

Subjects

Vibration, Engineering, business.industry, Movement (music), Transversal vibration, Structural engineering, Cable stayed, Swing, Parametric oscillator, business, Suspension (motorcycle), Parametric statistics

Abstract

The possibility of exciting horizontal parametric resonance vibration in a cable stayed footbridge as a result of a premeditated action of a group of people, or of crowd movement, is analysed. Large horizontal transverse vibration are caused by the vertical periodic synchronised movement of people, which is analogical to the movements of a person on a swing. The problem studied is how large a group of people is able to excite dangerous parametric transversal vibration in the system. (© 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published

2006

29. COUPLED VIBRATION OF CONTINUOUS TRUSS-BRIDGE ON MANY PIERS

Author

Torao Taya

Subjects

Vibration, Engineering, Truss bridge, Bar (music), business.industry, General Earth and Planetary Sciences, Transversal vibration, Vertical plane, Structural engineering, Phase velocity, business, General Environmental Science

Abstract

In this paper the author has shown the correct method of vibration analysis of solid elastic structure, taking an example in the problem of transversal vibration (in vertical plane) of continuous truss-bridge on many piers. He has also applied in this paper his long-cherished opinion as to the phase velocity of longitudinal progressing-wave in solid elastic bar, which was already reported in his previous paper, ' Phase Velocity of Longitudinal Impact Wave in Solid Elastic Bar ' in the Trans. of JSCE, No. 260, April, 1977.

Published

1977

30. The Effect of Unsprung Weight of Railway Cars on Their Vibration Characteristics

Author

Naoteru Oda and Masami Kusakabe

Subjects

Vibration, Physics, business.industry, Transversal (combinatorics), Trailer, Vertical vibration, Transversal vibration, Unsprung mass, Structural engineering, business

Abstract

In this study, we compared two vibration characteristics of a car below the resonant speed, in a case, used as a motor car, and in the other case, used as a trailer. In the case of a motor car, about a half of motor weight is assumed to be unsprung weight over the trailer one. Results of the studies are as follows : -1°The natural periods of the car are not significantly different in the two cases, in both the vertical and transversal vibrations. 2°As to the vertical vibration. (1) Under 70 km/h, the heavier the unsprung weight becomes, the larger the vibration increases. (2) From 70 to 82 km/h, there are no difference. As to the transversal vibration. (3) Under 65 km/h, the vibration is larger in the heavier unsprung weight. (4) From 65 to 75 km/h, there are no difference. (5) Over 75 km/h, the vibration is rather small in the heavier unsprung weight.

Published

1952

31. On the Upper Limit of the Frequency of the Transversal Vibration of Prismatic Bars

Author

Kyoji Suyehiro

Subjects

Fuel Technology, Materials science, Mathematical analysis, Energy Engineering and Power Technology, Transversal vibration, Limit (mathematics)

Published

1928

32. How the Taper of Tire Tread Varies the Vibration of Railway Cars

Author

Kikusaburo Nagashima and Naoteru Oda

Subjects

Vibration, Acceleration, Materials science, business.industry, Vertical vibration, Transversal vibration, Structural engineering, Conical surface, Tread, business

Abstract

The writers studied experimentally the effect of the taper of tire treads on the vibration of railway cars, in cooperation with the Keihanshin Express Electric Railway Co., Ltd. The vibration of running cars was measured in both cases of 1/20-tapered conical tread and cylindrical tread, and the vibration charts are treated statistically. Results obtained are as follows : (1) Acceleration in the case of cylindrical treads are less in both vertical and transversal vibration. (2) In the vertical vibration, difference is a little. (3) But, in the transversal vibration, acceleration is about 7 : 5 when the car speed is over 80 kg/h.

Published

1951

33. A Study on the Vibration of a Electric Car (Especially, on the Transversal Vibration at High Speed)

Author

Kikusaburo Nagashima and Naoteru Oda

Subjects

Vibration, Physics, Acoustics, Transversal vibration, Electric cars

Abstract

大阪のある郊外電車で, 釣合ばねのこわさ, 心皿の形状を変え, また外輪の摩耗せる場合および削正せる場合につき, 走行中の振動の変化を研究したものである.その結果, 上下動は心皿および外輪の状態によつてあまり変化なく, その振動周期はわれわれの計算結果で説明できることがわかつた.また左右動は釣合ばねのこわさおよび心皿の形状によつてはあまり変化しないが, 外輪の摩耗状態によつて著しく変化すること, また測定された振動を蛇行動および各種の固有振動が重畳して表われるものとして説明できることがわかつた.左右動に対しては0.35s程度の車体の曲げ振動が非常に大きく表われ, 高速の100km/h程度で特に悪い影響を與える.これらを乗心地の点から見ると, 上下動はいわゆる"乗心地が

Published

1950

34. STUDIES ON THE CURVE OF EQUAL SENSITIVITY OF VIBRATION

Author

Akira Okada

Subjects

Vibration, Physics, Human ear, Acoustics, Vertical vibration, Physics::Atomic and Molecular Clusters, Public Health, Environmental and Occupational Health, Transversal vibration, Sensitivity (control systems), Physics::Chemical Physics, Toxicology, Longitudinal vibration

Abstract

Experimental studies were made on the curve of equal sensitivity of the human ear for vibration. In cases of vertical vibration obvious difference was observed as regards points representing equal sensitivity at low frequencies and at high frequencies. The curves were similar in cases of longitudinal vibration and of transversal vibration.

Published

1962

35. An estimate of the interval of existence of solutions of the nonlinear Kirchhoff equation

Author

E. Minchev and D. Bainov

Subjects

Partial differential equation, Mathematical analysis, An estimate, Interval of existence of solutions, Interval (mathematics), Kirchhoff integral theorem, Term (time), Nonlinear system, Computational Mathematics, Computational Theory and Mathematics, Modeling and Simulation, Modelling and Simulation, Initial value problem, Transversal vibration, Boundary value problem, Nonlinear Kirchhoff equation, Mathematics

Abstract

Solutions to the initial-boundary value problem for the nonlinear Kirchhoff equation are considered. Conditions on the initial data and nonlinear term are given so that the solutions to the problem under consideration do not exist for all t > 0. An estimate of the t -interval of existence of the solutions is obtained.