EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP)

Currently, the pipeline used in oil and gas is metallic material. However, these materials is having a problem with corrosion and erosion. The other alternative is to use the non-metallic pipe as it is free from corrosion and erosion. The suitable alternative is HDPE pipe because it has greater stre...

Full description

Main Author: Mohd Husni, Muhammad Amir Azri
Format: Final Year Project
Language: English
Institution: Universiti Teknologi Petronas
Record Id / ISBN-0: utp-utpedia.19246 /
Published: 2018
Online Access: http://utpedia.utp.edu.my/19246/1/Muhammad%20Amir%20Azri_19912_Dissertation.pdf
http://utpedia.utp.edu.my/19246/
Tags: Add Tag
No Tags, Be the first to tag this record!
id utp-utpedia.19246
recordtype eprints
spelling utp-utpedia.192462019-06-20T08:22:57Z http://utpedia.utp.edu.my/19246/ EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP) Mohd Husni, Muhammad Amir Azri Currently, the pipeline used in oil and gas is metallic material. However, these materials is having a problem with corrosion and erosion. The other alternative is to use the non-metallic pipe as it is free from corrosion and erosion. The suitable alternative is HDPE pipe because it has greater strength compared with other non-material. To enhance the strength of HDPE pipe, the surface of HDPE pipe is wind with carbon fiber to produce Carbon Fiber Wind HDPE Composite pipe (CFWHCP). This project is to study the effect of surface treatment of HDPE pipe before winding process to mechanical properties of CFWHCP and evaluate the surface treatment which shows significant improvement to its mechanical properties. Two HDPE composite pipe is wound by carbon fiber with winding angle of 57° and epoxy as it matrix. The CFWHCP for both specimen is fixed for 6 fiber tows and same size which is 12k. One of HDPE pipe surface of CFWHCP did not been grinded and have a smooth surface named as Sample 1.The surface of the other HDPE pipe for one of the CFWHCP is been grinded with sandpaper grade 60 before proceed with carbon fiber wound with epoxy to have a rough surface named Sample 2. Both of it undergo the axial tensile test and apparent hoop test in order to get the mechanical properties. The findings show that Sample 2 is 9.4% greater tensile strength which is 28.19 MPa while Sample 1 has 25.77 MPa for axial tensile test. For apparent hoop test, Sample 2 is only 0.94% greater than Sample 1 as it tensile strength is 3.21 MPa and Sample 1 is 3.18 MPa. It can conclude that Sample 2 which having surface treatment at HDPE pipe before winding with carbon fiber has a better tensile strength due to the better matrix bonding and better grip of carbon fiber with HDPE pipe. 2018-01 Final Year Project NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/19246/1/Muhammad%20Amir%20Azri_19912_Dissertation.pdf Mohd Husni, Muhammad Amir Azri (2018) EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP). UNSPECIFIED.
institution Universiti Teknologi Petronas
collection UTPedia
language English
description Currently, the pipeline used in oil and gas is metallic material. However, these materials is having a problem with corrosion and erosion. The other alternative is to use the non-metallic pipe as it is free from corrosion and erosion. The suitable alternative is HDPE pipe because it has greater strength compared with other non-material. To enhance the strength of HDPE pipe, the surface of HDPE pipe is wind with carbon fiber to produce Carbon Fiber Wind HDPE Composite pipe (CFWHCP). This project is to study the effect of surface treatment of HDPE pipe before winding process to mechanical properties of CFWHCP and evaluate the surface treatment which shows significant improvement to its mechanical properties. Two HDPE composite pipe is wound by carbon fiber with winding angle of 57° and epoxy as it matrix. The CFWHCP for both specimen is fixed for 6 fiber tows and same size which is 12k. One of HDPE pipe surface of CFWHCP did not been grinded and have a smooth surface named as Sample 1.The surface of the other HDPE pipe for one of the CFWHCP is been grinded with sandpaper grade 60 before proceed with carbon fiber wound with epoxy to have a rough surface named Sample 2. Both of it undergo the axial tensile test and apparent hoop test in order to get the mechanical properties. The findings show that Sample 2 is 9.4% greater tensile strength which is 28.19 MPa while Sample 1 has 25.77 MPa for axial tensile test. For apparent hoop test, Sample 2 is only 0.94% greater than Sample 1 as it tensile strength is 3.21 MPa and Sample 1 is 3.18 MPa. It can conclude that Sample 2 which having surface treatment at HDPE pipe before winding with carbon fiber has a better tensile strength due to the better matrix bonding and better grip of carbon fiber with HDPE pipe.
format Final Year Project
author Mohd Husni, Muhammad Amir Azri
spellingShingle Mohd Husni, Muhammad Amir Azri
EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP)
author_sort Mohd Husni, Muhammad Amir Azri
title EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP)
title_short EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP)
title_full EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP)
title_fullStr EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP)
title_full_unstemmed EFFECT OF MECHANICAL PROPERTIES ON SURFACE TREATMENT TO CARBON FIBER WOUND HDPE COMPOSITE PIPE (CFWHCP)
title_sort effect of mechanical properties on surface treatment to carbon fiber wound hdpe composite pipe (cfwhcp)
publishDate 2018
url http://utpedia.utp.edu.my/19246/1/Muhammad%20Amir%20Azri_19912_Dissertation.pdf
http://utpedia.utp.edu.my/19246/
_version_ 1741195469224148992
score 11.62408

Similar Items