Characterisation of abrasive water-jet process for drilling titanium and carbon fibre reinforced polymer stacks

Gustavo A. Escobar-Palafox; Krystian K. Wika; Rosemary S. Gault; Keith Ridgway

Characterisation of abrasive water-jet process for drilling titanium and carbon fibre reinforced polymer stacks

Gustavo A. Escobar-Palafox, Krystian K. Wika, Rosemary S. Gault, Keith Ridgway

Research output: Contribution to conference › Paper › peer-review

6 Citations (Scopus)

46 Downloads (Pure)

Abstract

Experiments were carried out in stacks composed of titanium and carbon-fibre-reinforced polymer (CFRP) with the aim to investigate the effect of water-jet process variables on drilled diameter and surface condition. A design of experiments (DoE) approach was taken, considering variables such as water pressure, traverse rate, abrasive mass flow and stack set-up. Two different set-ups were investigated: CFRP over titanium (CFRP/Ti) and vice versa (Ti/CFRP). The experimental variables were related to taper ratio, surface roughness of the hole bore, hole quality and surface condition. Statistical analysis was carried out in order to develop mathematical models which include process variables interactions and quadratic terms. This led to models with high correlation and prediction power; which allow a better understanding of the process and can form the base for further process optimisation. The models were validated with additional experiments and showed good agreement with the water-jet system. The results showed that set-up and its interaction with other process variables has a strong influence on the performance of the abrasive water-jet system for producing holes in hybrid materials.

Original language	English
Pages	171-182
Number of pages	12
Publication status	Published - 22 Sept 2012
Event	21st International Conference on Water Jetting: Looking to the Future, Learning from the Past - 2012 - Ottawa, Canada Duration: 19 Sept 2012 → 22 Sept 2012

Conference

Conference	21st International Conference on Water Jetting: Looking to the Future, Learning from the Past - 2012
Country/Territory	Canada
City	Ottawa
Period	19/09/12 → 22/09/12

Keywords

abrasive waterjet machining
CFRP titanium stacks
abrasive water-jet
carbon fibre reinforced polymer
correlation and prediction
hole quality
mass flow
process optimisation
process Variables
set-ups
surface conditions
taper ratios
traverse rate
water jets
water pressures
abrasives
carbon fiber reinforced plastics
carbon fibers
design of experiments
experiments
hybrid materials
mathematical models
surface roughness
titanium
jet drilling

Access to Document

Escobar-Palafox-etal-ICWJ2012-Characterisation-abrasive-water-jet-process-drilling-titanium-carbon-fibre-reinforced-polymer-stacksAccepted author manuscript, 1.02 MB

Cite this

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title = "Characterisation of abrasive water-jet process for drilling titanium and carbon fibre reinforced polymer stacks",

abstract = "Experiments were carried out in stacks composed of titanium and carbon-fibre-reinforced polymer (CFRP) with the aim to investigate the effect of water-jet process variables on drilled diameter and surface condition. A design of experiments (DoE) approach was taken, considering variables such as water pressure, traverse rate, abrasive mass flow and stack set-up. Two different set-ups were investigated: CFRP over titanium (CFRP/Ti) and vice versa (Ti/CFRP). The experimental variables were related to taper ratio, surface roughness of the hole bore, hole quality and surface condition. Statistical analysis was carried out in order to develop mathematical models which include process variables interactions and quadratic terms. This led to models with high correlation and prediction power; which allow a better understanding of the process and can form the base for further process optimisation. The models were validated with additional experiments and showed good agreement with the water-jet system. The results showed that set-up and its interaction with other process variables has a strong influence on the performance of the abrasive water-jet system for producing holes in hybrid materials.",

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author = "Escobar-Palafox, {Gustavo A.} and Wika, {Krystian K.} and Gault, {Rosemary S.} and Keith Ridgway",

year = "2012",

month = sep,

day = "22",

language = "English",

pages = "171--182",

note = "21st International Conference on Water Jetting: Looking to the Future, Learning from the Past - 2012 ; Conference date: 19-09-2012 Through 22-09-2012",

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Characterisation of abrasive water-jet process for drilling titanium and carbon fibre reinforced polymer stacks. / Escobar-Palafox, Gustavo A.; Wika, Krystian K.; Gault, Rosemary S. et al.
2012. 171-182 Paper presented at 21st International Conference on Water Jetting: Looking to the Future, Learning from the Past - 2012, Ottawa, Ontario, Canada.

Research output: Contribution to conference › Paper › peer-review

TY - CONF

T1 - Characterisation of abrasive water-jet process for drilling titanium and carbon fibre reinforced polymer stacks

AU - Escobar-Palafox, Gustavo A.

AU - Wika, Krystian K.

AU - Gault, Rosemary S.

AU - Ridgway, Keith

PY - 2012/9/22

Y1 - 2012/9/22

N2 - Experiments were carried out in stacks composed of titanium and carbon-fibre-reinforced polymer (CFRP) with the aim to investigate the effect of water-jet process variables on drilled diameter and surface condition. A design of experiments (DoE) approach was taken, considering variables such as water pressure, traverse rate, abrasive mass flow and stack set-up. Two different set-ups were investigated: CFRP over titanium (CFRP/Ti) and vice versa (Ti/CFRP). The experimental variables were related to taper ratio, surface roughness of the hole bore, hole quality and surface condition. Statistical analysis was carried out in order to develop mathematical models which include process variables interactions and quadratic terms. This led to models with high correlation and prediction power; which allow a better understanding of the process and can form the base for further process optimisation. The models were validated with additional experiments and showed good agreement with the water-jet system. The results showed that set-up and its interaction with other process variables has a strong influence on the performance of the abrasive water-jet system for producing holes in hybrid materials.

AB - Experiments were carried out in stacks composed of titanium and carbon-fibre-reinforced polymer (CFRP) with the aim to investigate the effect of water-jet process variables on drilled diameter and surface condition. A design of experiments (DoE) approach was taken, considering variables such as water pressure, traverse rate, abrasive mass flow and stack set-up. Two different set-ups were investigated: CFRP over titanium (CFRP/Ti) and vice versa (Ti/CFRP). The experimental variables were related to taper ratio, surface roughness of the hole bore, hole quality and surface condition. Statistical analysis was carried out in order to develop mathematical models which include process variables interactions and quadratic terms. This led to models with high correlation and prediction power; which allow a better understanding of the process and can form the base for further process optimisation. The models were validated with additional experiments and showed good agreement with the water-jet system. The results showed that set-up and its interaction with other process variables has a strong influence on the performance of the abrasive water-jet system for producing holes in hybrid materials.

KW - abrasive waterjet machining

KW - CFRP titanium stacks

KW - abrasive water-jet

KW - carbon fibre reinforced polymer

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KW - process optimisation

KW - process Variables

KW - set-ups

KW - surface conditions

KW - taper ratios

KW - traverse rate

KW - water jets

KW - water pressures

KW - abrasives

KW - carbon fiber reinforced plastics

KW - carbon fibers

KW - design of experiments

KW - experiments

KW - hybrid materials

KW - mathematical models

KW - surface roughness

KW - titanium

KW - jet drilling

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T2 - 21st International Conference on Water Jetting: Looking to the Future, Learning from the Past - 2012

Y2 - 19 September 2012 through 22 September 2012

ER -

Characterisation of abrasive water-jet process for drilling titanium and carbon fibre reinforced polymer stacks

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