Selective comparison of heating sources for thermoplastic Automated Tape Placement

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Standard

Selective comparison of heating sources for thermoplastic Automated Tape Placement. / Yadav, Neha; Schledjewski, Ralf.
Automated Composites Manufacturing (ACM4): Fourth International Symposium. ed. / Suong V. Hoa. 2019. 1.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Vancouver

Yadav N, Schledjewski R. Selective comparison of heating sources for thermoplastic Automated Tape Placement. In Hoa SV, editor, Automated Composites Manufacturing (ACM4): Fourth International Symposium. 2019. 1

Author

Yadav, Neha ; Schledjewski, Ralf. / Selective comparison of heating sources for thermoplastic Automated Tape Placement. Automated Composites Manufacturing (ACM4): Fourth International Symposium. editor / Suong V. Hoa. 2019.

Bibtex - Download

@inproceedings{d7e5b61e92a544549a276cd7880fbf2b,
title = "Selective comparison of heating sources for thermoplastic Automated Tape Placement",
abstract = "Automated Tape Placement is regarded as a process that holds the potential to deliver fast-paced in-situ consolidated thermoplastic composites. Although the process has been used commercially for thermosets, use of thermoplastics remain a field under development. The major parameters that influence the process are heat input, velocity of placement and consolidation pressure applied. Adopting an optimized heating source will help in optimizing the process itself. Assessment of a new heating system requires testing the system for different process parameters and comparing it with results obtained from an established system. This paper aims at comparing a relatively new heat source, humm3{\texttrademark} with a well known heat source, direct flame torch. Experiments were conducted to compare the nip point temperature, width changes and wedge peel strength for both the heat sources. The results obtained help in analyzing the humm3{\texttrademark} in terms of the material that can be best placed using the system and process improvement in general. ",
keywords = "ATP process, Thermoplastics, Humm3TM, Direct flame torch, Peel Strength",
author = "Neha Yadav and Ralf Schledjewski",
year = "2019",
month = may,
language = "English",
editor = "Hoa, {Suong V.}",
booktitle = "Automated Composites Manufacturing (ACM4)",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Selective comparison of heating sources for thermoplastic Automated Tape Placement

AU - Yadav, Neha

AU - Schledjewski, Ralf

PY - 2019/5

Y1 - 2019/5

N2 - Automated Tape Placement is regarded as a process that holds the potential to deliver fast-paced in-situ consolidated thermoplastic composites. Although the process has been used commercially for thermosets, use of thermoplastics remain a field under development. The major parameters that influence the process are heat input, velocity of placement and consolidation pressure applied. Adopting an optimized heating source will help in optimizing the process itself. Assessment of a new heating system requires testing the system for different process parameters and comparing it with results obtained from an established system. This paper aims at comparing a relatively new heat source, humm3™ with a well known heat source, direct flame torch. Experiments were conducted to compare the nip point temperature, width changes and wedge peel strength for both the heat sources. The results obtained help in analyzing the humm3™ in terms of the material that can be best placed using the system and process improvement in general.

AB - Automated Tape Placement is regarded as a process that holds the potential to deliver fast-paced in-situ consolidated thermoplastic composites. Although the process has been used commercially for thermosets, use of thermoplastics remain a field under development. The major parameters that influence the process are heat input, velocity of placement and consolidation pressure applied. Adopting an optimized heating source will help in optimizing the process itself. Assessment of a new heating system requires testing the system for different process parameters and comparing it with results obtained from an established system. This paper aims at comparing a relatively new heat source, humm3™ with a well known heat source, direct flame torch. Experiments were conducted to compare the nip point temperature, width changes and wedge peel strength for both the heat sources. The results obtained help in analyzing the humm3™ in terms of the material that can be best placed using the system and process improvement in general.

KW - ATP process

KW - Thermoplastics

KW - Humm3TM

KW - Direct flame torch

KW - Peel Strength

M3 - Conference contribution

BT - Automated Composites Manufacturing (ACM4)

A2 - Hoa, Suong V.

ER -