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Dispenses photopolymer gel strings, and instant polymerization. Tip defines the volume of the gel string. Instant solidification using UV led curing. Almost no need for support structures; the layers support each other.
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Agenda • 3D printing in education • The problem • New way • Massivit offering • The product & the company • How it works • Examples / Applications
3D Printing in Education • 3D printers are widely adopted in education & research centers • The technology is mainly used in engineering schools • Producing mainly handheld sized parts BUT: • More faculties could benefit from the technology • Applications are limited by size, cost, speed & materials • Often industrial grade systems are idle due to high running costs
The Problem Size • Current applications are bounded by: • Size – Only small\medium sized part Material Speed • Speed – Only small\medium sized parts • Cost – Only small\medium sized parts • Materials – For various applications • Resolution – For some applications Resolution Cost
The Problem • Overall industrial grade 3D printers utilization in the education sector <30% • Consumables are too expensive for the students • Maintenance is expensive • Hobbyist systems are limited in size & speed
Frustration • Applications are limited and technology remain a benefit for few • Non materialized high potential to benefit from 3D printing: • Architecture, Art, Design, Furniture, Large mechanical parts • Mostly due to Size, related to Speed & Cost • Difficult & complex daily management
New Way Size Speed Supportless Savings Big is no longer long nor expensive to print! 7
The Massivit Solution Size Size Material Speed Material Speed Resolution Cost Resolution Cost
Relevant Departments • Producing Fast, Large, Affordable parts for: • Design • Art • Architecture • Mechanical engineering • Aeronautics • Robotics • Automotive • Entertainment • Animation • More… • Research Platform • Materials science & engineering • Software • Advanced manufacturing technologies
Value Proposition – Fab Labs Expand current applications, offerings and capabilities 1 •Mostly large & quick parts for existing customers and applications Expand offerings to more departments & researches 2 •Art, Architecture, Construction, Oil & Gas, Furniture, Visual communications & more Increase affordability 3 •With special gel business model Unique Technology 4 •Differentiate yourself from the competition
“All You Can Print” • Initial stock of gel • System is always online • Stock is replenished automatically every month • Fixed monthly fee • Pre-order possible before big projects • No fluctuations on running costs • Convenient payments (Hub Store) • Encourage students usage
Value Proposition – Research Open platform with exceptional degrees of freedom 1 •Allowing novel materials & software capabilities invented by them Enter new research fields – Publish 2 •For specific applications or processes Potential revenue stream 3 •From shared profit on invented products Unique Technology – Pioneering 4 •Differentiate yourself from others
Open Platform – Innovation • Same system specs • R&D setup with more degrees of freedom • R&D guidelines • For you to experiment new possibilities • Facilitate collaboration • Solve real world problems • Potential profit sharing mechanism
The Massivit Advantage • Unique & new GDP technology • With significant industry impact potential (Big – Fast – Cost effective) • Open platform for innovation • High publishing potential • Wide range of applications • Lower TCO • Benefit more departments • Differentiate yourself
MASSIVIT 3D TECHNOLOGY (GEL DISPENSING PRINTING - GDP) PRINTS AT LEAST 10 TIMES FASTER! 15
MEGA-SCALE – RADICAL SPEED MASSIVIT 3D PRINTERS VERTICAL SPEED : 35 CM / 14” PER HOUR DEPTH 1.11m 4’ WIDTH 1.45m 5’ HEIGHT 1.80m 6’ 2 PRINTING HEADS NO MATERIAL WASTE NO SUPPORT STRUCTURES 16
RADICAL SPEED ENABLES MEGA SCALE RADICAL SPEED: Print a mannequin in 6 hours only ! VERTICAL SPEED: 14” per hour 35cm per hour MEGA SCALE: 4’ x 5’ x 6’ 1.11 x 1.45 x 1.8m
HOW DOES IT WORK? GEL DISPENSING PRINTING TECHNOLOGY (GDP) MASSIVIT 3D 57 Active Patents • Dispenses photopolymer gel strings, and instant polymerization • Tip defines volume of the gel string • Instant solidification using UV led curing • Almost no need for support structures; the layers support each other • Once printing is done, no need for post processing (curing, heating, etc.) Mechanical Elements Archimede s screw Print head Dispenser UV LED Curing UV LED Curing Tray Tip
NO RADICAL SPEED MEGA SCALE WASTE 19
MASSIVIT 3D STRENGTHS 70 EMPLOYEES WW 57 ACTIVE PATENT ASSETS +140 UNITS INSTALL BASE FOUNDED 2013 20
300 gr 10.58 oz 100 gr 3.52 oz 47 mins 1,140 mins (19 hrs.) 25
37 Yacht Toilet Counter Yacht Captain Panel
Yacht Ladder 38 Front Panel Vending Machine Bus Main Flashlights
AUTOMOTIVE MARIE 3D, FRANCE 40
3D PRINTED FIN REINFORCED WITH FIBERGLASS - CROTIA B. 3D Printed A. Before C. After
Product Design Dimengel / InWin & SID, APJ – Unique Chassis The design inspiration of Yǒng is viewing nature from an artistic perspective. The original concept is from observing a butterfly’s pupation stage. Capture the organic form and showcasing the vivid detailing of each Yǒng. Thus, each piece is one-of-a- kind
Visual Communications