Influence of machining process on the mechanical behaviour of injection-moulded specimens of talc-filled Polypropylene

A. Codolini; Q. M. Li; A. Wilkinson

doi:10.1016/j.polymertesting.2017.07.018

Influence of machining process on the mechanical behaviour of injection-moulded specimens of talc-filled Polypropylene

A. Codolini, Q. M. Li^*, A. Wilkinson

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

The mechanical properties of injection-moulded components are usually obtained by conducting uniaxial tensile tests on dog bone specimens. Current standards do not regulate the machining process used to make the coupons and do not quantify an acceptance limit of the surface roughness. The surface qualities of milling, laser cutting and water jet cutting were examined in this study for 18% talc-filled Polypropylene using optical measurements. It shows that the machining processes influence the surface roughness of the specimen, leading to different strengths at failure of the same thermoplastic material. The specimens machined by the water jet technology produced the roughest sample edges and exhibited the lowest resistance to failure in tensile tests. On the contrary, the milling process generated the best edge quality, which showed repeatable testing results.

Original language	English
Pages (from-to)	342-347
Number of pages	6
Journal	Polymer Testing
Volume	62
Early online date	18 Jul 2017
DOIs	https://doi.org/10.1016/j.polymertesting.2017.07.018
Publication status	Published - 2017

Keywords

Failure strain
Laser cutting
Milling
Surface roughness
Tensile test specimens
Water jet cutting

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.polymertesting.2017.07.018

1-s2.0-S0142941817303410-mainAccepted author manuscript, 1.26 MB

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title = "Influence of machining process on the mechanical behaviour of injection-moulded specimens of talc-filled Polypropylene",

abstract = "The mechanical properties of injection-moulded components are usually obtained by conducting uniaxial tensile tests on dog bone specimens. Current standards do not regulate the machining process used to make the coupons and do not quantify an acceptance limit of the surface roughness. The surface qualities of milling, laser cutting and water jet cutting were examined in this study for 18% talc-filled Polypropylene using optical measurements. It shows that the machining processes influence the surface roughness of the specimen, leading to different strengths at failure of the same thermoplastic material. The specimens machined by the water jet technology produced the roughest sample edges and exhibited the lowest resistance to failure in tensile tests. On the contrary, the milling process generated the best edge quality, which showed repeatable testing results.",

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volume = "62",

pages = "342--347",

journal = "Polymer Testing",

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T1 - Influence of machining process on the mechanical behaviour of injection-moulded specimens of talc-filled Polypropylene

AU - Codolini, A.

AU - Li, Q. M.

AU - Wilkinson, A.

PY - 2017

Y1 - 2017

N2 - The mechanical properties of injection-moulded components are usually obtained by conducting uniaxial tensile tests on dog bone specimens. Current standards do not regulate the machining process used to make the coupons and do not quantify an acceptance limit of the surface roughness. The surface qualities of milling, laser cutting and water jet cutting were examined in this study for 18% talc-filled Polypropylene using optical measurements. It shows that the machining processes influence the surface roughness of the specimen, leading to different strengths at failure of the same thermoplastic material. The specimens machined by the water jet technology produced the roughest sample edges and exhibited the lowest resistance to failure in tensile tests. On the contrary, the milling process generated the best edge quality, which showed repeatable testing results.

AB - The mechanical properties of injection-moulded components are usually obtained by conducting uniaxial tensile tests on dog bone specimens. Current standards do not regulate the machining process used to make the coupons and do not quantify an acceptance limit of the surface roughness. The surface qualities of milling, laser cutting and water jet cutting were examined in this study for 18% talc-filled Polypropylene using optical measurements. It shows that the machining processes influence the surface roughness of the specimen, leading to different strengths at failure of the same thermoplastic material. The specimens machined by the water jet technology produced the roughest sample edges and exhibited the lowest resistance to failure in tensile tests. On the contrary, the milling process generated the best edge quality, which showed repeatable testing results.

KW - Failure strain

KW - Laser cutting

KW - Milling

KW - Surface roughness

KW - Tensile test specimens

KW - Water jet cutting

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DO - 10.1016/j.polymertesting.2017.07.018

M3 - Article

AN - SCOPUS:85025156937

SN - 0142-9418

VL - 62

SP - 342

EP - 347

JO - Polymer Testing

JF - Polymer Testing

ER -

Influence of machining process on the mechanical behaviour of injection-moulded specimens of talc-filled Polypropylene

Abstract

Keywords

UN SDGs

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