The crushing behaviour of bamboo fibres reinforced epoxy matrix composite tube under quasi-static compression loading

AbstractThis research investigates the compressive property of a novel composite based on a weft-knitted auxetic tube subjected to a quasi-static compression test. In order to maximize the influence of the fiber content on the compression test, a Kevlar yarn was used in knitting the tubular samples using three different auxetic arrow-head structures (i.e. 4 × 4, 6 × 6 and 8 × 8 structure). A quasi-static compression test was conducted under two different impact loading speeds (i.e. 5 mm/min and 15 mm/min loading speed). The results indicate that the energy absorption (EA) property of the auxetic composite is highly influenced by the auxeticity of the knitted tubular fabric.

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Influence of Mechanical Properties in the Surface Modification of Palm Fiber/Epoxy Matrix Composite

Journal of Natural Fibers ◽

10.1080/15440478.2021.1993409 ◽

2021 ◽

pp. 1-12

Author(s):

Parivendhan J Inbakumar ◽

Sengottuvelu Ramesh ◽

Satish Babu Boppana

Keyword(s):

Mechanical Properties ◽

Surface Modification ◽

Matrix Composite ◽

Epoxy Matrix ◽

Palm Fiber ◽

Epoxy Matrix Composite

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3D Microstructure-Based FE Simulation of Cold-Sprayed Al-Al2O3 Composite Coatings under Indentation and Quasi-Static Compression

10.31399/asm.cp.itsc2021p0386 ◽

2021 ◽

Author(s):

Saman Sayahlatifi ◽

Chenwei Shao ◽

André McDonald ◽

James David Hogan

Keyword(s):

Metal Matrix Composite ◽

Matrix Composite ◽

Metal Matrix ◽

Composite Coatings ◽

Ductile Failure ◽

Interface Debonding ◽

Material System ◽

Static Compression ◽

Deformation And Failure ◽

Quasi Static Compression

Abstract This study developed microstructure-based finite element (FE) models to investigate the behavior of cold-sprayed aluminum-alumina (Al-Al2O3) metal matrix composite (MMCs) coatings subject to indentation and quasi-static compression. Based on microstructural features (i.e., particle weight fraction, particle size, and porosity) of the MMC coatings, representative volume elements (RVEs) were generated by using Digimat software and then imported into ABAQUS/Explicit. State-of-the-art physics-based modelling approaches were incorporated into the model to account for particle cracking, interface debonding, and ductile failure of the matrix. This allowed for analysis and informing on the deformation and failure responses. The model was validated with experimental results for cold-sprayed Al-18 wt.% Al2O3, Al-34 wt.% Al2O3, and Al-46 wt.% Al2O3 metal matrix composite coatings under quasi-static compression by comparing the stress versus strain histories and observed failure mechanisms (e.g., matrix ductile failure). The results showed that the computational framework is able to capture the response of this cold-sprayed material system under compression and indentation, both qualitatively and quantitatively. The outcomes of this work have implications for extending the model to materials design and under different types of loading (e.g., erosion and fatigue).

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Effects of Temperature on the Performance of Footwear Foams Subjected to Quasi-Static Compression Loading

IFMBE Proceedings - 25th Southern Biomedical Engineering Conference 2009, 15 – 17 May 2009, Miami, Florida, USA ◽

10.1007/978-3-642-01697-4_37 ◽

2009 ◽

pp. 107-110 ◽

Cited By ~ 2

Author(s):

M. R. Shariatmadari ◽

R. English ◽

G. Rothwell

Keyword(s):

Static Compression ◽

Compression Loading ◽

Effects Of Temperature ◽

Quasi Static Compression

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Fracture and flexural analysis of sandwich panel with polypropylene honeycomb as core and jute fabric reinforced epoxy matrix composite as skin layer

Materials Research Express ◽

10.1088/2053-1591/ab4f0e ◽

2019 ◽

Vol 6 (11) ◽

pp. 115348 ◽

Cited By ~ 2

Author(s):

G Venkatachalam ◽

D Mallikarjuna Reddy ◽

Shashi Kant Tiwari ◽

Nilesh Satonkar ◽

S Kovalan

Keyword(s):

Matrix Composite ◽

Epoxy Matrix ◽

Sandwich Panel ◽

Skin Layer ◽

Jute Fabric ◽

Epoxy Matrix Composite ◽

Flexural Analysis

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Active Vibration Control of Epoxy Matrix Composite Beams with Embedded Shape Memory Alloy TiNi Fibers

International Journal of Modern Physics B ◽

10.1142/s0217979203019605 ◽

2003 ◽

Vol 17 (08n09) ◽

pp. 1744-1749 ◽

Cited By ~ 8

Author(s):

T. Aoki ◽

A. Shimamoto

Keyword(s):

Shape Memory Alloy ◽

Shape Memory ◽

Vibration Control ◽

Matrix Composite ◽

Epoxy Matrix ◽

Damping Ratio ◽

Active Vibration Control ◽

Composite Beams ◽

Epoxy Matrix Composite ◽

Active Vibration

In this paper, epoxy matrix composite beams with embedded TiNi (SMA: Shape Memory Alloy) fiber are applied to enhance the strength and fracture toughness of the machinery components. It is also well known that SMA shows the remarkable changes of stiffness and damping ratio between martensite at lower temperature and austenite at high temperature. A shape recovery force is associated with inverse phase transformation of SMA. The effects of heating with current and pre-strain in TiNi fiber of SMA on vibration characteristics are experimentally investigated. The active vibration control is achieved by controlling the current and pre-strain.

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