Microstructure and twisting ability of an adjusted antisymmetric angle ply laminate

Su, Xiaoyu; Ren, Zhongjing; Yan, Jing; Shi, Yong; Pan, Quan

doi:10.1063/1.5089809

Title: Microstructure and twisting ability of an adjusted antisymmetric angle ply laminate

Authors:

Su, Xiaoyu ^[1]; Ren, Zhongjing ^[1]; Yan, Jing ^[2]; Shi, Yong ^[3]; Pan, Quan ^[2]

School of Automation, Northwestern Polytechnical University, Xi'an, Shaanxi 710072, China, School of Engineering and Science, Stevens Institute of Technology, 1 Castle Point Terrace, Hoboken, New Jersey 07030, USA
School of Automation, Northwestern Polytechnical University, Xi'an, Shaanxi 710072, China
School of Engineering and Science, Stevens Institute of Technology, 1 Castle Point Terrace, Hoboken, New Jersey 07030, USA

Publication Date:: 2019-05-27

Sponsoring Org.:: USDOE

OSTI Identifier:: 1523693

Grant/Contract Number:: SC0012704

Resource Type:: Publisher's Accepted Manuscript

Journal Name:: Applied Physics Letters

Additional Journal Information:: Journal Name: Applied Physics Letters Journal Volume: 114 Journal Issue: 21; Journal ID: ISSN 0003-6951

Publisher:: American Institute of Physics

Country of Publication:: United States

Language:: English

Citation Formats


                    Su, Xiaoyu, Ren, Zhongjing, Yan, Jing, Shi, Yong, and Pan, Quan. Microstructure and twisting ability of an adjusted antisymmetric angle ply laminate.  United States: N. p., 2019. 
Web.  doi:10.1063/1.5089809.

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                    Su, Xiaoyu, Ren, Zhongjing, Yan, Jing, Shi, Yong, & Pan, Quan. Microstructure and twisting ability of an adjusted antisymmetric angle ply laminate.  United States.  https://doi.org/10.1063/1.5089809

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                    Su, Xiaoyu, Ren, Zhongjing, Yan, Jing, Shi, Yong, and Pan, Quan. Mon .  
"Microstructure and twisting ability of an adjusted antisymmetric angle ply laminate".  United States.  https://doi.org/10.1063/1.5089809.

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@article{osti_1523693,

  title        = {Microstructure and twisting ability of an adjusted antisymmetric angle ply laminate},

  author       = {Su, Xiaoyu and Ren, Zhongjing and Yan, Jing and Shi, Yong and Pan, Quan},

  abstractNote = {},

  doi          = {10.1063/1.5089809},

  journal      = {Applied Physics Letters},

  number       = 21,

  volume       = 114,

  place        = {United States},

  year         = {2019},

  month        = {5}

}

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Large deformation of antisymmetric angle-ply laminates resulting from nonuniform temperature loadings

Journal Article Huang, N N ; Tauchert, T R - J. Therm. Stresses; (United States)

The incremental-loading procedure of Huang and Tauchert (1988) is used to obtain approximate solutions for the moderately large deflections of antisymmetric angle-ply plates under nonuniform temperature fields. A parabolic in-plane variation and a linearly varying transverse distribution of temperature are considered. The analysis predicts the existence of a bifurcation along the thermal load-deflection path for certain laminate configurations and loadings. Results based on the large-deflection theory are compared with exact solutions to the classical small-deformation formulation for various fiber-reinforced laminates. 6 references.
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Journal Article Tauchert, T R - J. Therm. Stresses; (United States)

The buckling behavior of moderately thick antisymmetric angle-ply laminates that are simply supported and subject to a uniform temperature rise is analyzed. Transverse shear deformation is accounted for by employing the thermoelastic version of the Reissner-Mindlin theory. Results for the classical thin-plate theory are obtained as a special case. Numerical results are presented for fiber-reinforced laminates and show the effects of ply orientation, number of layers, plate thickness, and aspect ratio on the critical buckling temperature. Finally, an optimization procedure is proposed for the design of laminates having maximum resistance to thermal buckling. 17 references.
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Conference DeTeresa, S J ; Hoppel, C P

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Full Text Available
Transient thermal stress analysis and bending behavior of an angle-ply laminated slab

Journal Article Ootao, Y ; Tanigawa, Y ; Murakami, H - Journal of Thermal Stresses; (USA)

This paper is concerned with a theoretical treatment of thermal stress and bending behavior in a transient state of a multilayered nonisotropic laminated slab. Consideration is given to an infinitely long laminated slab which consists of obliquely directed layers with orthotropic material properties. The thermoelastic problem for the slab under the condition of uniformly distributed heat supply from its one surface is solved in order to obtain the temperature solution and to evaluate the thermal stresses in a transient state. As an example, numerical calculations are carried out for the five-layered angle-ply laminate.
https://doi.org/10.1080/01495739008927031

Similar Records

Title: Microstructure and twisting ability of an adjusted antisymmetric angle ply laminate

Citation Formats

Fabrication and test of thermal vertical bimorph actuators for movement in the wafer plane journal, July 2001

Large Displacement Polymer Bimorph Actuator for Out-of-Plane Motion journal, June 2006

Flexible pneumatic twisting actuators and their application to tilting micromirrors journal, September 2014

Electrothermomechanical modeling of out-of-plane deformation in single-stepped beams actuated by resistive heating journal, February 2015

High performance bimorph piezoelectric MEMS harvester via bulk PZT thick films on thin beryllium-bronze substrate journal, July 2017

Development of a shape-memory-alloy micromanipulator based on integrated bimorph microactuators journal, September 2016

Reconfigurable nanomechanical photonic metamaterials journal, January 2016

Soft Actuators for Small-Scale Robotics journal, December 2016

Efficient Piezoelectric Energy Harvesters Utilizing (001) Textured Bimorph PZT Films on Flexible Metal Foils journal, June 2016

Shape and Thermal Effects of Metal Films on Stress-Induced Bending of Micromachined Bilayer Cantilever journal, May 2005

APPLIED PHYSICS: The Material Is the Machine journal, January 2005

Construction of a Fish-like Robot Based on High Performance Graphene/PVDF Bimorph Actuation Materials journal, March 2016

Wearable inertial energy harvester with sputtered bimorph lead zirconate titanate (PZT) thin-film beams journal, July 2018

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Analysis and Fabrication of Curved Multimorph Transducers That Undergo Bending and Twisting journal, October 2012

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Mechanical assembly of complex, 3D mesostructures from releasable multilayers of advanced materials journal, September 2016

A Piezoelectric Twisting Beam Actuator journal, December 2017

Fabrication and test of thermal vertical bimorph actuators for movement in the wafer plane
journal, July 2001

Large Displacement Polymer Bimorph Actuator for Out-of-Plane Motion
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Electrothermomechanical modeling of out-of-plane deformation in single-stepped beams actuated by resistive heating
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High performance bimorph piezoelectric MEMS harvester via bulk PZT thick films on thin beryllium-bronze substrate
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Development of a shape-memory-alloy micromanipulator based on integrated bimorph microactuators
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Reconfigurable nanomechanical photonic metamaterials
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Soft Actuators for Small-Scale Robotics
journal, December 2016

Efficient Piezoelectric Energy Harvesters Utilizing (001) Textured Bimorph PZT Films on Flexible Metal Foils
journal, June 2016

Shape and Thermal Effects of Metal Films on Stress-Induced Bending of Micromachined Bilayer Cantilever
journal, May 2005

APPLIED PHYSICS: The Material Is the Machine
journal, January 2005

Construction of a Fish-like Robot Based on High Performance Graphene/PVDF Bimorph Actuation Materials
journal, March 2016

Wearable inertial energy harvester with sputtered bimorph lead zirconate titanate (PZT) thin-film beams
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A flexoelectric microelectromechanical system on silicon
journal, November 2015

Analysis and Fabrication of Curved Multimorph Transducers That Undergo Bending and Twisting
journal, October 2012

Experimental performance evaluation of smart bimorph piezoelectric actuator and its application in micro robotics
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Cross-shaped twisting structure using SMA-based smart soft composite
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