Product Design Portfolio - 2022 by Marc Campbell

MARC CAMPBELL PRODUCT DESIGN PORTFOLIO

EXPERIENCE

SKILLS

INTERESTS

Exxentric AB | 2021

CAD Modelling

Music

Andor Techology Ltd | 2018

Wireframing

Rugby

The Waterside Inn | 2021

Bombardier Aerospace | 2016

Hall Black Douglas Architects | 2014

ABOUT ME

DESIGN TOOLS

Prototyping

Renders & Animation Ideation

Storyboarding

Programming in C Mechanics

Saxophone Football Skiing

Formula 1

Volunteering Languages

Craft beer & Whiskey

SolidWorks

Digital Sketching

Adobe Creative Suite

EDUCATION

Blender

Loughborough University - Design School | 2018-2022

Figma

Onshape

Hi, I’m Marc I am a Loughborough University Product Design and Technology (BSc) Graduate looking for a full time position in the design and engineering industry I would describe myself as an innovative, determined designer with a keen eye for detail. I love bringing ideas to reality.

Solidworks Visualise Keyshot

Sketchbook Pro Autodesk MPLAB

Design Spark

Microsoft Office Suite

FOLLOW MY SOCIALS:

Product Design and Technology (BSc) - 2:1 (68)

Grosvenor Grammar School | 2010-2017

A-Level: Design & Technology (A*), Maths (B), Physics (C) AS-Level: D&T(A), Maths (B), Physics (C), German (C) GCSE: 12 GCSEs A* - C

CONTENTS

SANITAS 2022

INVERTO 2021

2022

KITCHI 2020

ENVIRO

AIRBNB HUB 2022

PRESERVE 2020

PROJECT 01 - SANITAS “SANITAS” IS A COMPRESISON VEST FOR ATHLETES THAT INCORPORATES SMART CONDUCTIVE FABRIC TO CREARE A 3-LEAD ECG VEST. “SANITAS” EMPOWERS ATHLETES TO TAKE CHARGE OF THEIR HEART HEALTH. THE COMPRESSION VEST CONNECTS TO AN APP THAT DISPLAYS ALL OF THE PLAYER’S HEART DATA FOR ANALYSIS. THE VEST FEATURES GPS TRACKING THAN CAN BE USED FOR DEVELOPMENT, AS WELL AS CALORIE EXPENDITURE AND DIET.

Problem

SANITAS

Cardiac Arrest is the most common medical cause of death in athletes. Sudden Cardiac Arrest in young athletes is usually caused by a structural or electrical abnormality in the heart. These abnormalityies often remain undiagnosed and may be unknown to the athlete. Left unmonitored, this creates a huge risk to the athlete’s life.

Secondary Research

Primary Research

Ideation & Prototype Plan

Electronics Development

IDENTIFYING PROBLEM & RESEARCH

HEART DATA

GPS DATA

SANITAS

CONTINUOUS TRACKING

DATA ANALYSIS

WASHABLE

MOISTURE WICKING

BLUETOOTH

SOLUTION

SANITAS

FUNCTIONING PROTOTYPE

APP DEVELOPMENT

Athlete receives the folded up compression vest.

SANITAS

Performance tracker can be turned on and paired with bluetooth.

The coach can track the player’s heart and GPS stats during training

Performance tracker can then be placed into the vest.

The vest must be worn as a base layer with skin contact.

The pocket is on the back of the vest.

After training the athlete and their coach can go through all the data recorded and see the analysis and feedback

Athletes can then train as normally when wearing the vest. It will not impede any movements.

Athlete can choose to wear clothes on top of the vest

The athlete can use the personal app to help with heart health outside of training by tracking calorie expenditure and diet.

The performance tracker will need charged once a week to ensure that it can perform at it’s maximum capability.

SCENARIO

5 7

8 9 10 11 12

SANITAS

INTERNALS & MANUFACTURING

PARTICIPANTS

Participants Wearing the Vest Prototype

TASKS:

SANITAS

1. Click through the App Prototype. 2. Put on the vest prototype without guidance. 3. Electronics connected to laptop. Participant starts exercising.

An Arduino Uno board was coded and interfaced with ECG and GPS circuit boards to show functionality of the conductive fabric electrodes.

4. Heart data captured on data logging software. 5. Q&A Feedback Session

Data Logging Software

MikroPlot software was used to plot the signal coming from the electrodes. Once the reading was complete the software could analysis the heart data and output HR figures and any anomalies.

USER TESTING

PROJECT 02 - ENVIRO THIS IS A SUSTAINABLE RE-DESIGN PROJECT. THE BRIEF WAS TO RE-INVENT THE COMMON SNEAKER TO BE MORE SUSTAINABLE AND ENVIRONMENTALLY FRIENDLY. SNEAKERS HAVE AN ENVIRONMENTAL FOOTPRINT. MY CHALLENGE WAS TO DESIGN A BETTER SNEAKER FOR A LESS-POLLUTED TOMORROW. TO IDENTIFY ISSUES TO TACKLE THROUGHOUT THIS PROJECT EXTENSIVE RESEARCH AND LIFE-CYCLE ANALYSIS WAS UNDERTAKEN.

ENVIRO

UNDERSTANDING CO2 EMISSIONS

RESIDUAL WASTE

UNDERSTANDING LIFE CYCLE OF PRODUCTS TO IDENTIFY AN OPPORTUNITY FOR DEVELOPMENT, EXTENSIVE MARKET RESEARCH AND SUSTAINABLE ANALYSIS WAS UNDERTAKEN. OVER-CONSUMPTION HAS CREATED AN EXISTENTIAL CRISIS FOR THE ENVIRONMENT WITH BEHAVIOURAL CHANGE BECOMING A MUST FOR ALL CONSUMERS.

IDENTIFYING THE PROBLEM

ENVIRO

VARIOUS SUSTAINABLE DESIGN TOOLS WERE USED TO ANALYSES THE MODULAR SNEAKER COMPARED TO THE TWO ORIGINAL PAIRS OF SHOES THAT IT HAS COMBINED

MY SOLUTION OF COMBINING REGULARE SNEAKERS AND SAFETY TRAINERS INTO ONE PAIR OF MODULAR SHOES SAVES 26KG CO2E AND SAVES €10.50 FOR ECO-COST PER KG

SUSTAINABLE IMPROVEMENTS

ENVIRO

CONCEPT SKETCHING

ENVIRO

THE SHOES AND INSOLES ARE ORDERED ON A CONNECTED APP

START

FIND

SCAN

CONFIRM

SELECT

ENJOY

HOME SCREEN FOR THE APP

CONFIRM LOCATION FOR DRONE PICK-UP

USE CAMERA TO SCAN BOTH FEET

CUSTOM INSOLES GENERATED FOR USER’S GAIT

CHOOSE THE COLOUR AND STYLE OF SHOE

CONFIRM DELIVERY AND AWAIT PARCEL.

APP DESIGN

BETTER SNEAKER

A modular sneaker that reduces the CO2e by 72% and lowers the Eco-cost by 67%

COMBINING TWO PAIRS INTO ONE

3. 1.

5. 5.

6. 4.

ENVIRO

1. 2.

2. 2. 2.

1. Piñatex 2. Recycled Rubber 3. Recycled Cotton 4. Cork Insole

5. Recycled Velcro 6. Steel Toe Cap 7. Recycled EVA Foam

SOLUTION

ENVIRO

A NEW PAIR OF SHOES IS DELIVERED LOCALLY BY DRONE.

THE SHOES CAN NOW BE WORN IN WORKSHOPS OR CONSTRUCTION SITES

THE BOX TELLS THE USER ALL OF THE C02 EMISSIONS FOR TRANSPARENCY.

THE USER CAN WEAR IT WITH CONFIDENCE KNOWING THEIR FEET ARE PROTECTED

THE REGULAR SHOES ARE COMFORTABLE AND STYLISH FOR EVERYDAY USE.

THE FRONT CAN BE SWAPPED OUT EASILY BY UN-DOING THE VELCRO AND SLIDING THE FRONT OFF

THE RECYCLED EVA FOAM PROVIDES COMFORT WHEN WALKING AROUND.

THE SHOES FIT PERFECTLY INTO THE LIFESTYLE OF THE USER

THE USER CAN EASILY SWAP THE FRONT OF THE SHOE FOR THE STEEL TOE BY USING THE VELCRO.

AT THE END OF LIFE THE SHOES CAN BE EASILY BROKEN DOWN AND RECYCLED.

RENDERED STORYBOARD

PROJECT 03 - INVERTO THIS PROJECT WAS PART OF A FINAL YEAR MODULE AT LOUGHBOROUGH DESIGN SCHOOL. IT WAS A 12 WEEK LONG GROUP PROJECT THAT COMBINED ALL PRIOR MECHANICS & ELECTRONICS CONTENT TAUGHT THROUGHOUT MY DEGREE THE BRIEF WAS TO DESIGN AND MANUFACTURE A FUNCTIONING COFFEE MACHINE USING AN AEROPRESS. THE MACHINE HAD MINIMAL USER INTERATION AND HAD TO BE AS AUTOMATIC AS POSSIBLE.

HOPPER & GRINDER PLA & 3D PRINTED & EXTERNALLY SOURCED

BODY & BRANDING ACRYLIC & MDF LASER CUT & LINE BENT

WATER PUMP & TUBING PVC & PP EXTERNALLY SOURCED

DC MOTOR & RUNNER PLASTIC & METAL EXTERNALLY SOURCED

INVERTO

MECHANISM SUPPORTS PLA 3D PRINTED

HOPPER & PUMP HOLDER MDF LASER CUT, GLUED & CLAMPED

SCISSOR MECHANISM MILD STEEL CUT, FILED & DRILLED

VIDEO OF FULLY FUNCTIONING PROTOTYPE

PRODUCT BASE & SUPPORTS MDF LASER CUT, GLUED & CLAMPED

CUSTOM END CAP & BEAKER PLA & NEODYMIUM 3D PRINTED USER INTERFACE & LCD PLA & PLASTIC LCD 3D PRINTED & EXTERNALLY SOURCED

EMERGENCY STOP BUTTON PLASTIC & METAL EXTERNALLY SOURCED

WATER TANK POLYPROPYLENE EXTERNALLY SOURCED

SKETCH DEVELOPMENT PRODUCT FEATURES

ELECTRONIC FEATURES:

- LCD SCREEN SHOWING CUSTOM GRAPHICS. - SERVO MOTOR TO CONTROL COFFEE HOPPER. -WATERPUMP TO FILL THE AEROPRESS. - HEATING ELEMENT TO HEAT THE MUG. - DC MOTOR TO MOVE HOPPER SIDE TO SIDE

ALL OF THE ELECTRONIC COMPONENTS WERE CODED USING MPLAB AND A PICKIT PROGRAMMER. EACH COMPONENT WAS CODED INDIVIDUALLY TO TEST FUNCTIONALITY AND THEN COMBINED INTO ONE CIRCUIT THAT WAS THEN INSERTED INTO THE BASE OF THE COFFEE MACHINE AND LINKED UP TO THE MECHANICAL COMPONENTS THAT WILL BE POWERED BY THE ELECTRONICS. VARIOUS TESTS WERE RUN TO TEST FUNCTIONAILTY OF THE WHOLE COFFEE PROCESS BEFORE THE MACHINE WAS DEMONSTRATED TO MY MODULE LEADERS.

INVERTO

CUSTOM GRAPHICS BLOCK DIAGRAM OF THE WHOLE SYSTEM

COMPLETE CIRCUIT DRAWN ON EASY EDA

SKETCH DEVELOPMENT

COMPLETE CIRCUIT READY TO BE TESTED

HEAT PLATE

ELECTRONICS DEVELOPMENT

INVERTO

SCISSOR MECHANISM DRAWING

MAGNETIC SEAL DRAWING

SKETCH DEVELOPMENT MECHANISM SUPPORTS DRAWING

BASE AND BODY DRAWING

ENGINEERING DRAWINGS

- SCISSOR MECHANISM TO COMPRESS AEROPRESS.

- LINEAR ACTUATOR TO CONTROL SCISSOR MECHANISM. -HOPPER & WATERPUMP CARRIER. - CUSTOM END CAP & BEAKER AS PART OF THIS GROUP PROJECT, I WAS IN CHARGE OF THE MANUFACTURING OF THE COFFEE MACHINE AND MAKING THE SCISSOR MECHANISM WORK ALONG WITH ALL THE OTHER COMPONENTS OF THE COFFEE MACHINE.

INVERTO

MECHANICAL FEATURES:

THE MAJORITY OF PARTS WERE BUILT BY HAND MAKING USE OF THE WOODWORK, METAL WORK AND 3D PRINTING WORKSHOPS. OTHER MACHINES WERE USED SUCH AS PILAR DRILL, LASER CUTTER, LINE BENDER AND TIG WELDING.

AEROPRESS TESTING & 3D PRINTING

3D PRINTED BEAKER

SCISSOR MECHANISM MANUFACTURING

THE STYLE OF THE COFFEE MACHINE WAS TO BE STRIPPED BACK AND MECHANICAL TO ALLOW THE USER TO SEE THE WHOLE PROCESS HAPPENING WITH THE MOTORS TURNING AND WATER PUMPING CREATING AN INTERACTIVE PROCESS FOR THE USERS SENSES. LINEAR ACTUATOR

WATER PUMP AND TUBING

MDF BODY MANUFACTURING

3D PRINTED END CAP

MAGNETIC SEAL MANUFACTURING

SKETCH DEVELOPMENT

ASSEMBLING THE BODY READY TO COMBINE WITH ELECTRONICS

MECHANICS DEVELOPMENT

PROJECT 04 - AIRBNB HUB THIS PROJECT WAS PART OF A DESIGN WEEK AT LOUGHBOROUGH DESIGN SCHOOL DURING MY FINAL YEAR. I RECEIVED A LIVE BRIEF FROM DCA INTERNATIONAL AND I PRODUCED THE FOLLOWING DELIVERABLES. THE BRIEF WAS TO TAKE A SERVICE-BASED BRAND AND PROPOSE A PHYSICAL PRODUCT THAT WOULD AID THE BRAND IN ENTERING THE NEW POST-COVID WORLD. I CHOSE AIRBNB.

Communication between hosts and their guests •

Guests get in touch to raise an issue or ask you a question. Sometimes these will be fair and understandable. Other times they may be petty, silly or obvious.

•

Lack of or delays in communication can cause the host or guest to change their plans drastically causing unrest in the relationship.

•

Information sharing about the house (operation of washing machine, location of heating, basic house rules, local amenities etc).

02 / INITIAL QUESTIONS • • •

AIRBNB HUB

01 / PROBLEM

Can unnecessary questioning be reduced? Could the host supply more information about the house? Can clarity in communicaiton be achieved?

03 / PRIMARY & SECONDARY RESEARCH METHODS

04 / KEY INSIGHTS - DESIGN DIRECTION • • • •

There is unwanted communication between the host and guest that could be avoided with the introduction of an information hub. There is often a language barrier between host and guest which can cause confusion and frustration Keys are often lost or misplaced by the guests. The host and guest could be an adult of any age - design must be inclusive.

05 / DEFINE, DEVELOP & IDEATE WEBSITES

- Airbnb as a brand. (brand identity, ethos, perception) - Learning about the 2014 Rebrand. - Identifying User and Market. - Outlining issues currently faced by Airbnb, hosts and their guests. - Researching similar solutions and competitive products.

INTERVIEWING AN AIRBNB HOST

- Used to gain a detailed understanding of what issues Airbnb hosts face. - Confirmed that the problem identified is legitimate and worth solving. - Insights into habits adopted by the host and guest throughout stays.

ARTICLES

- Used to gain a greater understanding on what issues Airbnb faced during the pandemic. - How service-based companies adapted and overcame Covid-19 - What a hybrid model will look like for service based companies and how they will move into a “New Normal”.

TASK ANALYSIS

- Used to gain insights on the Airbnb process that host and guest go through every rental. - Visualising and targetting problem areas in the renting process

06 / SOLUTION

Design an information hub that is able to fit into any Airbnb environment around the world. The hub would be set up by the host and it would contain all vital information about the house (appliances, house rules and location of heating etc.). The hub would also contain information about local amenities and the local area. It will feature a language option so that the guest can select their native tongue and avoid confusion when reading the information. This will provide independence to the guest and alleviate excessive communication between the host and the guest. The guest will be able to contact the host incase of emergency via a button on the hub, this means that the host’s phone number remains a secret to the guest.

RESEARCH BOARD

02 The host receives the product from Airbnb.

USER

The host then inputs all the information about their house and presses sync.

•

Priority user is the guest.

•

The host will set up the device.

•

Adults of any age (18-65+)

TASK

AIRBNB HUB

•

Provide all vital and useful information to the guest

The Airbnb hub app is then downloaded and connected to the device.

throughout their stay. •

The Host can customise the screen with a photo of their choice.

Avoid the need for excessive communication to the host.

ENVIRONMENT •

The device is now ready to be interacted with by the guest.

The host welcomes their guest and points them in the direction of the hub to learn everything about the property and the local area.

Product will be placed and used inside Airbnb properties around the world.

•

Ideal location: living room or kitchen.

04 Once translated, the guest can start to interact with the product.

•

sanitised easily. If the guest speaks a foreign language they can use the language feature to translate the device.

BENEFITS •

The guest is able to gain independence during their stay. Allows the guest to feel less like they are staying in someone else’s house

Extra features include:

The device will take a few moments to translate.

Saves time that would otherwise be used to ask and/or answer

• The guest learns all the answers to their questions about the property and the local area.

Multiple users: cleaned &

• •

questions.

Gives the guest more independence.

All information available at the tap of a button. The host can be

confident that their guests are well

informed and their

property is in safe hands.

STORY BOARD

AIRBNB HUB

This was a one week project following a brief set by DCA Design International.

The Brief was to propose a product that a service-based company could launch to help them enter into a “Post-Covid” world

OPTIMISING GUEST AND HOST COMMUNICATIONS

RENDER BOARD

PROJECT 05 - KITCHI THIS PROJECT WAS A ONE WEEK LONG DESIGN WEEK AS PART OF MY 2ND YEAR AT LOUGHBOROUGH DESIGN SCHOOL. I RECEIVED A BRIEF FROM DESIGN REALITY AND HAD A WEEK TO MEET THE BRIEF AND PRODUCE THE FOLLOWING DELIVERABLES. THE BRIEF WAS TO DESIGN A DISABILITY AID USING A SINGLE 3D PRINTABLE PART. THE SOLUTION THAT I DESIGNED WAS A KITCHEN AID FOR PEOPLE SUFFERING WITH ARTHRITIS. COOKING BECOMES VERY STRESSFUL AND POSSIBLY SCARY WHEN YOU CAN’T HOLD OR GRIP THINGS WITH EASE. KITCHI TAKES ALL THAT STRESS AND FEAR AWAY.

BRIEF: DESIGN A DISABILITY AID USING A SINGLE 3D PRINTABLE COMPONENT.

COOKING MADE EASY.

KITCHI

FOR EVERYONE.

USER: PEOPLE SUFFERING FROM

TASK: FOOD PREPARATION - THIS CAN BE A

CHALLENGE FOR PEOPLE WITH ARTHRITIS AS MANY THINGS ARE HARD TO HOLD AND OPEN.

ENVIRONMENT: KITCHEN - THE AID WILL BE

STORED ALONG WITH THE KITCHEN UTENSILS IN ORDER TO BE EASILY ACCESSED AT ALL TIMES.

KITCHI

ARTHRITIS AND PAINS IN THEIR HANDS.

SKETCH DEVELOPMENT

PEOPLE SUFFERING FROM ARTHRITIS OFTEN GET PAINS IN THEIR JOINTS.

KITCHI ALLOWS THE USER TO COOK AND OPEN JARS WITHHOUT HAVING PAINS IN THEIR HANDS.

UTENSILS CAN BE CLIPPED INTO THE BODY AS SHOWN HERE.

IT CAN BE HUNG UP WITH OTHER UTENSILS FOR EASY ACCESS WHEN NEEDED.

ESPECIALLY WHEN HOLDING AND GRIPPING OBJECTS. THIS CAN MAKE COOKING A VERY UNCOMFORTABLE EXPERIENCE.

THIS THEN MAKES IT A LOT EASIER FOR THE USER TO COOK WHILE COMFORTABLY HOLDING THE UTENSIL USING KITCHI.

IT IS HELD AS SHOWN TO THE RIGHT. THIS WAY OF HOLDING ILLIMINATES PAIN IN THE HAND JOINTS OF THE USER.

KITCHI

6 ONCE THE USER IS FINISHED USING KITCHI IT CAN BE HUNG UP AGAIN WITH THE OTHER KITCHEN UTENSILS.

KITCHI WILL BE 3D PRIINTED OUT OF AGILUS30 WHICH IS A RUBBER-LIKE POLYJET PHOTOPOLYMER. THIS WILL ALLOW IT TO BE WATER RESISTANT AND EASILY CLEANED AS WELL AS STANDING UP TO REPEATED FLEXING WHEN IN USE.

WHEN THE USER HAS SELECTED THE SIZE THEY NEED AND LOCKED THE MECHANISM, THEY CAN OPEN JARS AND TWIST TOPS AS SHOWN BELOW.

4 THE JAR OPENER IS UNLOCKED AND EXTENDED AS SHOWN. THE SIZES OF THE JAR OPENER ARE SHOWN ON THE SIDE TO AID THE USER. WHEN EXTENDED, THE SIZE CLOSEST TO THE BODY IS THE SIZE OF THE JAR OPENER.

USER SCENARIO

PROJECT 06 - PRESERVE DESIGNING A MOULD TOOL TO PRODUCE A PROMOTIONAL WIDGET TO PROMOTE A BRAND OR COMPANY. THIS CONSISTED OF WIDGET DEVELOPMENT AS WELL AS MANUFACTURING THE MOULD TO BE INJECTION MOULDED. MY GROUP DECIDED TO DESIGN AN INJECTION MOULDED TOOTHBRUSH TO PROMOTE THE COMPANY PRESERVE. THIS CONSISTED OF TWO BODY PARTS AND A THRID DONOR PART CONTAINING THE BRISTLES WAS ADDED AFTER MANUFACTURING.

THE PRESERVE COMPANY HAS NO LINK OR ASSOCIATION WITH THIS PROJECT

2 MINUTE TIMER OPERATED USING START AND RESET BUTONS

2 MINUTE TIMER ON TOP TOOTHBRUSH HEADS COME IN A RANGE OF COLOURS TRAVEL SIZE HOLDER THAT CAN ALSO HOLD SPARE HEADS

TOOTHBRUSH HELD IN PLACE BY MAGNETS

MAGNETS

PRESERVE

SLOT FOR SPARE TOOTHBRUSH HEADS

THE AVERAGE PERSON WILL REPLACE THEIR TOOTHBRUSH TIMES IN THEIR LIFETIME.

THE CUPBOARD IS HELD ONTO THE WALL BY SUCTION CUPS

300

THIS PROJECT LOOKS TO DECREASE THAT NUMBER. THE ONLY PART THAT THE USER NEEDS TO REPLACE FOR PRESERVE IS THE HEAD.

MULTIPLE SPARE HEADS CAN BE STORED DOWN THE SIDES OF THE CUPBARD IN THE SLOT

THE CUPBOARD ON THE FRONT ALLOWS THE USER TO STORE BATHROOM PARAPHERNALIA

12 WEEKS GROUP

EXPLODED GENERAL ASSEMBLY

THE FOCUS OF THIS PROJECT WAS TO DESIGN AND MANUFACTURE AN ALUMINIUM MOULD TOOL. THE MOULD TOOL AND THE INSERTS WERE ALL MADE TO A TOLERANCE OF +/- 0.025MM

PRESERVE

THIS WAS A GROUP PROJECT WHERE I TOOK LEAD ROLE ON THE MANUFACTURING OF THE MOULD AND INSERTS.

MOULD TOOL AND ALL THE INSERTS READY FOR INJECTION.

THE FILLED MOULD AFTER INJECTION.

MOULD TOOL

The first stage of manufacturing was to take the CAD files of the mould and cut them out using the CNC router.

PRESERVE

We first cut it out of foam to check it worked and then the aluminium was used. In order to make the various inserts, a mixture of machines and processes were used. Including a milling machine, a pillar drill, a surface gridner and various hand tools. Once the inserts were made accurately to size, they were polished before being placed into the mould ready for injection

Once the mould and inserts were polished they could be assembled and clamped together. THe holes for the insert pins then needed to be drilled and reamed. Cutting compound CT-90 was used to keep the reemer cool and not cause damage to the cutter.

The Aluminium was cut on a XYZ CNC mill which used coolant to keep the cutter from over heating. The two mould halves were then ready to be polished and prepared to be used in the injection moulding machine. The mould needed 5 inserts in order to be able to inject properly. These were all made by hand

After the holes were reamed the insert pins could then be assembled into the mould and hit into place using a mallet. The mould was now ready to injected

MANUFACTURING

PRESERVE

06 The mould design is simple and effective and injected very successfully. Once injected the widget could be removed from the mould and the inserts taken out ouf their allocated places.

This injection moulding process was to simply prototype the design of the toothbrush. If this was to be made for mass production it would be made from HDPE Ocean Plastic, which is the material that Preserve use for their products.

Multiple widgets were able to be made. Using different pressure and speed setting on the injection moulding machine to ensure the highest quality finish possible.

The two parts of the widget could then be finsihed using a scalpel to remove any flash from the injection process. The bristles donor part could then be placed into its slot to complete the widget and ready to be used as a toothbrush.

Once finished I took part in a group presentation of our widget and accompanying poster to the module leaders of this design project.

Along with the poster; the mould, the completed widget and the widget after injection were all presented.

MANUFACTURING

HOLD TIME 15% PLASTIC FILLING TIME

15%

7.9

MOULD CLOSING TIME

10% EJECTION TIME

SECONDS

PRESERVE

55%

COOLING TIME

THE MASS MANUFACTURING PLAN WAS MADE TO PRODUCE AT LEAST 3 MILLION WIDGETS IN 3 MONTHS. THIS MEANS THE MOULD TOOL HAD TO BE MODIFIED.

168 864,000

7.9

SECONDS PER INJECTION

HOURS OF PRODUCTION A WEEK (INC. 8 HOURS MAINTENANCE)

3,456,000

WIDGETS MADE IN

MONTHS WITH

CAVITY MOULD

CAVITIES IN THE NEW MOULD

MASS MANUFACTURE PLAN

THANK YOU.

M.A.CAMPBELL-18@STUDENT.LBORO.AC.UK

BIT.LY/MCampbellDesign MARC CAMPBELL