Dr. Fin Clementwood
Dr. Fin Clementwood
modelling
crystallisation
Polylactic Acid for 3D printing
Dr. Fin Clementwood
modelling
crystallisation
Polylactic Acid for 3D printing
Dr. Fin Clementwood
modelling
crystallisation
Polylactic Acid for 3D printing
ASTHETIC SCIENCE
Polarised Light Microscope X Washing-up Liquid
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Location /
Maastricht University
Role /
Project design and lead
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Polylactic Acid for 3D printing
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Polylactic Acid for 3D printing
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Polylactic Acid for 3D printing
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
Dr. Fin Clementwood
modelling
crystallisation
Location /
Maastricht University
Role /
Team Project
Purpose/
Project period
Year /
2014
BACKGROUND
​
Polarised light microscopy THEORY + microscopy
Process of utilising it & Rachel discovered it
Stunning images with vivid colours that shifted when the bubbles popped and moved. The result is a vivid array of textural and unfamiliar streaks of light, shadow and refracted patterns. The shapes of other bubbles are reflected, amplified and diminished like small lenses.
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[Add watermark to images]
​
​
Polylactic Acid for 3D printing
Polylactic Acid for 3D printing
Polylactic Acid for 3D printing
Polylactic Acid for 3D printing
Polylactic Acid for 3D printing
Polylactic Acid for 3D printing
Dr Fin J Hazelwood
REPORTS
Presentation of designs
Background
Some findings and ideas are difficult to communicate, especially when highly technical. I ensure to break down the language and structure of the content into smaller sections and provide additional visualisations to aid comprehension while engaging the reader.
Aim
​
The aim of this task was to lay out the features and functionality of a software concept, wrapping up elements of evidenced data and findings to help explain and justify functions.
​
Method
​
Consideration was used about accessibility and lay-out and features were specifically designed to use prompts that would be familiar to the target user. Examples involve shadows to indicate layering and click-able buttons, and mimicking familiar user interfaces on smartphones.
Outcome
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An effective and brief communication of multiple concepts laid out clearly.