Today is the day for 8 month that i am doing my project that is requirement before i am graduating as degree student in Bachelor of Manufacturing at Universiti Malaysia Pahang. Alhamdulillah, the presentation was going smooth and the panel accept and understanding what i am do for my project. Here is I share some picture in the "nervous" day.Everything is over and now submit for final thesis.tQ :-)
Monday, 2 June 2014
Thursday, 29 May 2014
Dean Poster Award
Alhamdulillah..finish already the presentation with the engineer from industry. It make some knowledge and challenges in the industry in the future. Hopefully all the recommendation will do at the future. And now ready presentation for FYP2 soon on 02 June 2014...
Monday, 26 May 2014
Presentation Week
Assalamualaikum
and good days,
2nd
June 2014 is the date for our presentation of this final year project. May
Allah bless all the works that I had done for 8 months. Thanks for the
cooperation given while I am doing this project from the beginning until the
end. I would like to express my sincere appreciation to my supervisor,
Miss Suraya Binti Sulaiman for her encouragement, guidance, morale support, and
critics in bringing this project successful. I acknowledge my sincere
indebtedness and gratitude to my parents for their love, dream and sacrifice
throughout my life. I cannot find the appropriate words that could properly
describe my appreciation for their devotion, support and faith in my ability to
attain my goals. To our panel Dr Amir Azizi thanks for your comments and I will
practice it in the future. The last but not least, I am also very thankful
to the staffs of the Faculty of Manufacturing Engineering CAD/CAM laboratory
for the usage of computer for this project. My sincere appreciation to my
entire course mates with their sharing and helps during my difficulties in
completing my work for this project. Lastly, to individuals who has
involved either directly or indirectly in succession of this project. Thank you
very much.
##DOAKAN YANG TERBAIK YE BLOGGER## :-)..XOXO...PUBLISH...!
Future Recommendation
From
the results that have been obtained in the previous chapters, the following
future works can be recommended:
1.
Using other simulation software.
· It can be using the other FEM software such
as Moldflow or Solidwork software so that the accuracy on this software can be
compared.
2.
For increased confidence (accuracy) of
the simulations results, further work on such simulation on polymer flow by taking
picture of a real parison and measure its diameter and compare with simulation
process.
· Measure the real parison and real
bottle.
· Redraw again as same measurement of the
real bottle and shape.
3.
Comparing the simulation process with
the actual fabrication process work.
· By taking the both result and comparing
the result and analysed
4. Change
the shape of bottle to more complex shape.
· It can see the more stress effect on the
bottle.
· The thickness on the bottle can be
predicted.
5. Change
the material to the other material.
· It also cans trial and error on the
Polyethylene Terephthalate (PET), Polyvinyl Chloride (PVC), and High Density
Polyethylene (HDPE material.
· Also can do with the composite material
such as glass fiber and other composite material.
· It also can reduce the material cost.
6. Variable
of pressure
· Increase the pressure to reduce the time
step.
Summary of The Project
Blowing
extrusion in mould is one of the most widely used techniques for the production
hollow plastic product in order to survive in the competitive market and
achieve customer satisfaction. Therefore, this project covers the areas of
simulation works on blow moulding process to predict the final wall thickness
and stress contour occurred at four different parison’s diameter which are 8,
10, 18, 20mm in polypropylene material. The simulation software used is ANSYS
Polyflow software. The simulation works focus on five stages which are
geometry, meshing, setup, solution, and results process under structuring and
solidification of isothermal and transient flow of Newtonian fluid in complex
geometries. The thickness and timestep during the blowing process are studied.
The results of the investigations reveal that the 8 and 10mm diameter parison
has a better contact with the mould cavity while 18 and 20mm parison diameter
has a poorest contact. It is because the pressure not enough to blow the
parison and the parison diameter not appropriate with the mould cavity. Stress
may occur at the bottom of the bottle because at this point the thickness will
increase from the wall bottle to accommodate the volume of the bottle. As the
conclusion, 10mm diameter of parison is the best selection parison because the
parison it is fully contact on the mould cavity and the thickness is relevant
to produce in actual bottle. It also can save the time producing and reduce the
rate of the material usage.
Thursday, 22 May 2014
RFE M7
Miss Suraya,
Miss I want extend to extend my submission of M7 documents to next week 28th May due to I want to make my final check with miss. Thank you.
Miss I want extend to extend my submission of M7 documents to next week 28th May due to I want to make my final check with miss. Thank you.
Sunday, 18 May 2014
Result
In
the result, the simulation of the bottle from the Ansys blow molding (Polyflow)
windows, the data will generate when the material properties which are the
density and viscosity of material was define. Using the different parison
paremeter will show the effect on the final wall thickness and stress contour
on the part. Thickness
and stress profiles in the bottle will be discussed.
The physical property of polypropylene which is density, blow pressure,
viscosity and gravity is constant. Using the constant time also which is 0.1 second
of upper time limit and the time during the blow molding process will appear. The
simulation result appears the result of blow molding which is using 8, 10, 18,
and 20mm diameter of parison. The different diameter of parison will effect on
the final wall thickness and stress profile thickness. This visualization of
result will effect on the graft result based on the variable diameter of
parison. Adopted material for blowing parison is polypropylene
density ρ=0.906 g/cm³, diameter parison, d=8, 10, 18, and 20mm and the
viscosity μ = 100000 Pa•s. Thickness and stress profiles in the bottle will be discussed
Parison thickness
Parison thickness
8mm parison diameter |
10mm parison diameter |
18mm parison diameter |
20mm parison diameter |
Stress Contours Occurs
Figure 4.18
(a-d) presents the thickness distribution versus longitudinal coordinate at the
end of the process. A zoom of the neck and the bottom of the
bottle shows the stress distribution at the
end of the process. In clear indicates that at the end of the process, the
bottom of the bottle is
submitted to high stresses. A pressure is the maximum pre-blowing pressure (low
pressure) imposed during last steps with maximum blowing pressure (high pressure).
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