The use of pressurized water pellets in injection molding to improve dimensional consistency while decreasing cycle time

Rachmat Mulyana; Eusebio Duarte Cabrera; Jose M. Castro; L. James Lee

The use of pressurized water pellets in injection molding to improve dimensional consistency while decreasing cycle time

Rachmat Mulyana, Eusebio Duarte Cabrera, Jose M. Castro, L. James Lee

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In injection molding, cycle time, and dimensional stability are critical factors for process economics and product quality. In this paper, we discuss a new process/molding method developed by our group to improve dimensional stability while decreasing cycle time with minimum effect on mechanical properties. Pellets were prepared by compounding a water carrier particle, (Activated Carbon /AC) via extrusion, followed by a batch pressurizing process at a controlled pressure and temperature to allow a small amount of water to be absorbed into the pellets. Results show that the cycle time, sink marks and warpage are reduced without a major effect on the mechanical properties. A simplified diffusion model is proposed to better understand the loss of water in the pellet as a function of time and estimate raw material stability.

Original language	English
Title of host publication	Society of Plastics Engineers - EUROTECH 2013
Publisher	Society of Plastics Engineers
Pages	158-162
Number of pages	5
ISBN (Print)	9781632665324
State	Published - 2013
Event	EUROTECH 2013 - Lyon, France Duration: Jul 4 2013 → Jul 5 2013

Publication series

Name	Society of Plastics Engineers - EUROTECH 2013

Conference

Conference	EUROTECH 2013
Country/Territory	France
City	Lyon
Period	07/4/13 → 07/5/13

Cite this

@inproceedings{e59db82e40e5466fab5eaea1cd9f9889,

title = "The use of pressurized water pellets in injection molding to improve dimensional consistency while decreasing cycle time",

abstract = "In injection molding, cycle time, and dimensional stability are critical factors for process economics and product quality. In this paper, we discuss a new process/molding method developed by our group to improve dimensional stability while decreasing cycle time with minimum effect on mechanical properties. Pellets were prepared by compounding a water carrier particle, (Activated Carbon /AC) via extrusion, followed by a batch pressurizing process at a controlled pressure and temperature to allow a small amount of water to be absorbed into the pellets. Results show that the cycle time, sink marks and warpage are reduced without a major effect on the mechanical properties. A simplified diffusion model is proposed to better understand the loss of water in the pellet as a function of time and estimate raw material stability.",

author = "Rachmat Mulyana and Cabrera, {Eusebio Duarte} and Castro, {Jose M.} and Lee, {L. James}",

year = "2013",

language = "English",

isbn = "9781632665324",

series = "Society of Plastics Engineers - EUROTECH 2013",

publisher = "Society of Plastics Engineers",

pages = "158--162",

booktitle = "Society of Plastics Engineers - EUROTECH 2013",

note = "EUROTECH 2013 ; Conference date: 04-07-2013 Through 05-07-2013",

}

The use of pressurized water pellets in injection molding to improve dimensional consistency while decreasing cycle time. / Mulyana, Rachmat; Cabrera, Eusebio Duarte; Castro, Jose M. et al.
Society of Plastics Engineers - EUROTECH 2013. Society of Plastics Engineers, 2013. p. 158-162 (Society of Plastics Engineers - EUROTECH 2013).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - The use of pressurized water pellets in injection molding to improve dimensional consistency while decreasing cycle time

AU - Mulyana, Rachmat

AU - Cabrera, Eusebio Duarte

AU - Castro, Jose M.

AU - Lee, L. James

PY - 2013

Y1 - 2013

N2 - In injection molding, cycle time, and dimensional stability are critical factors for process economics and product quality. In this paper, we discuss a new process/molding method developed by our group to improve dimensional stability while decreasing cycle time with minimum effect on mechanical properties. Pellets were prepared by compounding a water carrier particle, (Activated Carbon /AC) via extrusion, followed by a batch pressurizing process at a controlled pressure and temperature to allow a small amount of water to be absorbed into the pellets. Results show that the cycle time, sink marks and warpage are reduced without a major effect on the mechanical properties. A simplified diffusion model is proposed to better understand the loss of water in the pellet as a function of time and estimate raw material stability.

AB - In injection molding, cycle time, and dimensional stability are critical factors for process economics and product quality. In this paper, we discuss a new process/molding method developed by our group to improve dimensional stability while decreasing cycle time with minimum effect on mechanical properties. Pellets were prepared by compounding a water carrier particle, (Activated Carbon /AC) via extrusion, followed by a batch pressurizing process at a controlled pressure and temperature to allow a small amount of water to be absorbed into the pellets. Results show that the cycle time, sink marks and warpage are reduced without a major effect on the mechanical properties. A simplified diffusion model is proposed to better understand the loss of water in the pellet as a function of time and estimate raw material stability.

UR - http://www.scopus.com/inward/record.url?scp=84904704783&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:84904704783

SN - 9781632665324

T3 - Society of Plastics Engineers - EUROTECH 2013

SP - 158

EP - 162

BT - Society of Plastics Engineers - EUROTECH 2013

PB - Society of Plastics Engineers

T2 - EUROTECH 2013

Y2 - 4 July 2013 through 5 July 2013

ER -

The use of pressurized water pellets in injection molding to improve dimensional consistency while decreasing cycle time

Abstract

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Conference

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