Experimental assessment of hybrid mould performance

Paulo Jorge Da Silva bartolo; Antonio J Pontes; Miguel P Queir??s; Pedro G Martinho; Paulo J B??rtolo; Ant??nio S Pouzada

doi:10.1007/s00170-010-2546-1

Experimental assessment of hybrid mould performance

Paulo Jorge Da Silva bartolo, Antonio J Pontes, Miguel P Queir??s, Pedro G Martinho, Paulo J B??rtolo, Ant??nio S Pouzada

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

Abstract

Hybrid moulds are a novel approach for rapid tooling of injection moulds that combines conventional machining for the mould structure and rapid prototyping techniques for the moulding blocks (core and cavity). In this study, two routes were used for producing the moulding blocks: selective laser sintering of stainless steel-based powder (hard tool) and epoxy resin vacuum casting (soft tool). The experimental work was based on a complex tridimensional commercial part. The mouldings were made in polypropylene, and the processing performance was monitored online in terms of pressure and temperature at the impression. The performance of the moulding blocks was analysed in terms of thermal and cycle performance and structural integrity. The epoxy tooling route is more adequate for fine detailing than selective laser sintering but is not adequate for parts with extensive ribs or deep bosses. The structural integrity of the less costly epoxy composite can be compromised during ejection, this suggesting the need to evaluate the stress field by simulation at the design stage of the mould.

Original language	English
Pages (from-to)	441-448
Number of pages	8
Journal	International Journal of Advanced Manufacturing Technology
Volume	50
Issue number	5-8
DOIs	https://doi.org/10.1007/s00170-010-2546-1
Publication status	Published - Feb 2010

Keywords

Computer-Aided Engineering (CAD
{CAE}) and Design
Epoxy casting
Hybrid mould
Industrial and Production Engineering
Injection moulding
Mechanical Engineering
Moulding blocks
Production/Logistics
Rapid tooling
SLS

UN SDGs

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

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10.1007/s00170-010-2546-1

http://link.springer.com/article/10.1007/s00170-010-2546-1

Cite this

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title = "Experimental assessment of hybrid mould performance",

abstract = "Hybrid moulds are a novel approach for rapid tooling of injection moulds that combines conventional machining for the mould structure and rapid prototyping techniques for the moulding blocks (core and cavity). In this study, two routes were used for producing the moulding blocks: selective laser sintering of stainless steel-based powder (hard tool) and epoxy resin vacuum casting (soft tool). The experimental work was based on a complex tridimensional commercial part. The mouldings were made in polypropylene, and the processing performance was monitored online in terms of pressure and temperature at the impression. The performance of the moulding blocks was analysed in terms of thermal and cycle performance and structural integrity. The epoxy tooling route is more adequate for fine detailing than selective laser sintering but is not adequate for parts with extensive ribs or deep bosses. The structural integrity of the less costly epoxy composite can be compromised during ejection, this suggesting the need to evaluate the stress field by simulation at the design stage of the mould.",

keywords = "Computer-Aided Engineering (CAD, {CAE}) and Design, Epoxy casting, Hybrid mould, Industrial and Production Engineering, Injection moulding, Mechanical Engineering, Moulding blocks, Production/Logistics, Rapid tooling, SLS",

author = "{Da Silva bartolo}, {Paulo Jorge} and Pontes, {Antonio J} and Queir??s, {Miguel P} and Martinho, {Pedro G} and B??rtolo, {Paulo J} and Pouzada, {Ant??nio S}",

year = "2010",

month = feb,

doi = "10.1007/s00170-010-2546-1",

language = "English",

volume = "50",

pages = "441--448",

journal = "International Journal of Advanced Manufacturing Technology",

issn = "1433-3015",

publisher = "Springer London",

number = "5-8",

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TY - JOUR

T1 - Experimental assessment of hybrid mould performance

AU - Da Silva bartolo, Paulo Jorge

AU - Pontes, Antonio J

AU - Queir??s, Miguel P

AU - Martinho, Pedro G

AU - B??rtolo, Paulo J

AU - Pouzada, Ant??nio S

PY - 2010/2

Y1 - 2010/2

N2 - Hybrid moulds are a novel approach for rapid tooling of injection moulds that combines conventional machining for the mould structure and rapid prototyping techniques for the moulding blocks (core and cavity). In this study, two routes were used for producing the moulding blocks: selective laser sintering of stainless steel-based powder (hard tool) and epoxy resin vacuum casting (soft tool). The experimental work was based on a complex tridimensional commercial part. The mouldings were made in polypropylene, and the processing performance was monitored online in terms of pressure and temperature at the impression. The performance of the moulding blocks was analysed in terms of thermal and cycle performance and structural integrity. The epoxy tooling route is more adequate for fine detailing than selective laser sintering but is not adequate for parts with extensive ribs or deep bosses. The structural integrity of the less costly epoxy composite can be compromised during ejection, this suggesting the need to evaluate the stress field by simulation at the design stage of the mould.

AB - Hybrid moulds are a novel approach for rapid tooling of injection moulds that combines conventional machining for the mould structure and rapid prototyping techniques for the moulding blocks (core and cavity). In this study, two routes were used for producing the moulding blocks: selective laser sintering of stainless steel-based powder (hard tool) and epoxy resin vacuum casting (soft tool). The experimental work was based on a complex tridimensional commercial part. The mouldings were made in polypropylene, and the processing performance was monitored online in terms of pressure and temperature at the impression. The performance of the moulding blocks was analysed in terms of thermal and cycle performance and structural integrity. The epoxy tooling route is more adequate for fine detailing than selective laser sintering but is not adequate for parts with extensive ribs or deep bosses. The structural integrity of the less costly epoxy composite can be compromised during ejection, this suggesting the need to evaluate the stress field by simulation at the design stage of the mould.

KW - Computer-Aided Engineering (CAD

KW - {CAE}) and Design

KW - Epoxy casting

KW - Hybrid mould

KW - Industrial and Production Engineering

KW - Injection moulding

KW - Mechanical Engineering

KW - Moulding blocks

KW - Production/Logistics

KW - Rapid tooling

KW - SLS

U2 - 10.1007/s00170-010-2546-1

DO - 10.1007/s00170-010-2546-1

M3 - Article

SN - 1433-3015

VL - 50

SP - 441

EP - 448

JO - International Journal of Advanced Manufacturing Technology

JF - International Journal of Advanced Manufacturing Technology

IS - 5-8

ER -

Experimental assessment of hybrid mould performance

Abstract

Keywords

UN SDGs

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