Rapid Prototyping & Manufacturing. ENGI 7962 Computer-Aided Engineering
|
|
- Jeffery Wilkinson
- 5 years ago
- Views:
Transcription
1 Rapid Prototyping & Manufacturing
2 Outline Why RP&M Technology? Basic Principles Currently Available/Developing l i Systems Directions for RP&M Research
3 R&D Directions in Manufacturing Intelligent Manufacturing Control Equipment Reliability & Maintenance Advanced Materials Product Realization Education & Training
4 Product Realization Multidisciplinary Concurrent, life cycle design teams Intelligent t product models Common databases across all functions (eg. engineering, planning, marketing,...) Management of PRP Time to market is critical and prototypes used to aid communication
5 History of Prototyping Artist/Craftsperson created model Development of CAD CAD databases used to generate CNC programs. Subtractive processes. Development of additive processes... generally called Rapid Prototyping.
6 Definition A process by which a solid physical model of a part is made directly from a 3-D CAD drawing without unique tooling or fixtures. Referred to as Desktop Manufacturing Automated Fabrication Tool-less l Manufacturing Free-form Fabrication
7 Goals of Rapid Prototyping Substantially reduce product development time, through rapid creation of 3D models. Improve communication (visualization) within multidisciplinary design teams. Address issues of increased flexibility & small batch sizes, while remaining competitive (rapid manufacture).
8 Basics Require a geometric model. Must include surface information. Usually solid modeling system: CATIA, I-DEAS, Pro/Engineer, SolidWorks, etc Surface models require completely bound volume and internal detail.
9 Basics (continued) 3D geometric model is mathematically sectioned into parallel cross-sections. Each cross-section section creates a 2D binding or curing path for model construction. Models are constructed t one layer at a time until complete. Supports may be required. Two stages: Data preparation and model production.
10 Data Preparation CAD data converted to.stl format..stl designed for 3D Systems Inc. Stereolithography Apparatus (SLA). Triangular facets are used to describe the shape of a closed 3D model. Faceted surface must be completely bound. Curved surfaces are approximated.
11 .STL Format Developed by Albert Consulting Group Consists of x, y & z coordinates of triangles Example: solid... facet normal outer loop vertex vertex vertex endloop endfacet... endsolid
12 .STL Format (continued) All adjacent triangles must share two vertices. Translation software is either included in CAD package or third party. Translator should provide ability to adjust chordal deviation (ie. trade-off accuracy vs file size and processing time).
13 VRML vs.stl Virtual Reality Modeling Language Developed through Silicon Graphics using their Open Inventor (.iv) standard. Lead to Tele-Manufacturing as proposed by Michael Bailey, U. of C., San Diego Take advantage of greater development effort and utilize other features (e.g.. colour, colour gradient, texture). STL still the dominant RP format
14 RP Production Technologies Stereolithography Apparatus presented at Autofact show in November, Currently upwards of twenty different technologies being developed/marketed. Major differences in materials used and build techniques. Various RP technologies outlined in following slides.
15 Stereolithography Apparatus (SLA) - 3D Systems Laser generated ultraviolet beam traces out cross-section & solidifies liquid polymer. Component is built in vat of liquid resin. Vat size limits prototype SLA-190 (7.9 x 7.9 x 9.8 ) US$105,000 SLA-250 (10 x 10 x 10 ) US$210,000 SLA-250 (20 x 20 x 24 ) US$420,000
16 Stereolithography Apparatus
17 Stereolithography (cont.) Materials at least five currently available. All are acrylates (non-reusable thermosets). Accuracy - ranges from 0.1% to 0.5% of overall dimension from small to large parts. A very accurate RP technology. Curing stability and support structures t remain challenges.
18 Solid Ground Curing / Photomasking - Cubital Ltd. Uses photo-masking to solidify whole layers of photopolymer at one time. Solider 5600 (20 x 14 x 20 ) US$550,000 with machine dimensions 13.5 x 5.5 x 5 Layer thicknesses of and dimensional accuracy of 0.02, building up to 100 layers/hour.
19 Solid Ground Curing (cont.)
20 Solid Ground Curing (cont.) Full cure as built minimizes shrinkage and eliminates post-curing. Wax eliminates need for supports. Fly cutter provides for undo operation. System produces a lot of waste. Can t reuse material picked up during milling, and uncured resin is a hazardous material.
21 Selective Laser Sintering - DTM Corp Developed at U. of Texas at Austin Utilizes powder, rather that liquid polymer. Potential exists for different materials including polycarbonate, PVC, ABS, nylon, polyester, polyurethane and casting wax. Sinterstation 2000 (12 dia. x 15 dp) US$425,000. Builds.4-2 per hour.
22 Selective Laser Sintering (cont.)
23 Selective Laser Sintering (cont.) Layers from thick. Accuracy from.005 to.015 depending on size. Components can be recycled by crushing and converting back to powder. Research is going into materials such as powdered metals, ceramics and composites.
24 Laminated Object Manufacturing Process uses bonded sheet material. Normally ypaper, p but metals,,plastics and composites are possible. LOM-1015 (14 x 15 x 10 ) US$95,000 LOM-2030 (30 x 20 x 20 ) US$180,000 Sheets of thick. Accuracy of +/ achievable.
25 Laminated Object Manuf. (cont.)
26 Laminated Object Manuf. (cont.) Support provided by remainder of sheet. Prototypes less fragile than polymers. No internal stresses or curing shrinkage. Paper waste is non-hazardous. Machine can be operated in an office environment. Cannot build hollow cavities as single part.
27 Three Dimensional Printing - MIT Utilizes powdered d material, spread out one layer at a time. Adhesive is applied in droplets through a device similar to an inkjet printer head. Limited quantitative data available on accuracy. 3DP licensed to Soligen Inc. for Direct Shell Production Casting process.
28 Three Dimensional Printing (cont)
29 Three Dimensional Printing (cont.) Internal supports not required. May require post processing, depending on material and binder. Work continues on limiting impact of binder drops, reducing jagged print edges and flow control for the binder. Consortium includes Boeing, Hasbro, Johnson & Johnson, 3M & United Tech.
30 Other RP Systems Fused Deposition Modeling - Stratasys uses.050 dia. thermoplastic filament Ballistic Particle Manufacturing - BPM uses three axis robotic system controlling an ink jet like deposition head. Low cost, easy to operate system. Electrosetting - US U.S. Navy 2D profiles are used to plot electrode shapes which are attached to foil. Multi-layer foil sandwich is immersed in liquid and energized. Material inside id electrode solidifies. Separately controllable voltage and current provides for programmable density, hardness, etc.
31 Other RP Systems (cont.) Masking & Depositing - Carnegie Mellon robotic control of metal spraying through a disposable, laser cut, mask. A complementary mask is used to spray low melting point support alloy. Shape Melting - Babcock & Wilcox controlled placement of gas metal arc welding wire weld deposit. Very closely controlled and monitored thermal conditions with localized cooling allow for control over material properties. Innumerable Variations
32 R & D in Rapid Prototyping Part Accuracy Improvement mathematical use of CSG and ray tracing vs.stl improved facet approximations process related z step resolution layer registration material related material selection/development stress relief, alternate build techniques to reduce deformation additional processing (eg. shot peening)
33 R & D in Rapid Prototyping (cont.) Materials improvements to current materials current materials weak and fragile development of low-shrink, less brittle plastics introduction of glass, carbon or graphite fibre mixtures including ceramics are being tested focus on end-use material requirement develop techniques to build with metal low melting point, binary metal powders deposition of droplets of molten metal from a moving nozzle breakthrough RP design based on materials knowledge
34 R & D in Rapid Prototyping (cont.) Systems improvements to current technologies incremental improvements to specific RP technologies generic improvements, applicable to several RP types development of new RP technology development of implementation knowledge desktop manufacturing, automated fabrication, tool-less manufacturing, free form fabrication workplace implications application identification and development virtual manufacturing, communications the personal factory
35 Examples of RP in Research Molecular Modeling Protein Kinase Molecular Docking Sites Earth Science Bathymetry Fault modeling Terrain surfaces Hurricane / meteorological modeling Ozone Hole over Antarctica
36 Examples of RP in Research Mechanical Medical Specific component models Clearance, fit, function verification Design process development Creation of mold blanks Customized devices for specific patients Mathematical Surface Visualization
37 Introduction to Rapid Tooling Def n : A process by which RP technology is used to allow manufacturers to speed up the prototype tooling process without committing to costly and time consuming hard tooling.
38 Rapid Tooling Evolved dramatically in 1996 RT allows user to build a tool that can produce 100s, 1000s, or even s of parts quickly and at a lower cost.
39 The Evolution of RT Rapid Soft Tooling (RST) Rapid Bridge Tooling (RBT) Rapid Hard Tooling (RHT)
40 The Evolution of RT
41 Rapid Soft Tooling (RST) Tools are made using RP Parts are molded using Room Temperature Vulcanization (RTV) Vacuum Casting NOT Injection Molded NOT fabricated from end use material Typically less than 30 parts per mold
42 Rapid Bridge Tooling (RBT) Utilizes advanced RP techniques Accurate Clear Epoxy Resins (ACES) Injection molded d parts Use of ACES allows entire project from CAD design to 100 molded prototypes in 5 days.
43 Rapid Hard Tooling (RHT) Fabricate the RP part Cover part with flexible silicon rubber Break apart and send to local l foundry Ceramic part replica of RP part Aluminum tooling cast from ceramic part Parts can be shot in real production material
44
Sharif University of Technology. Session # Rapid Prototyping
Advanced Manufacturing Laboratory Department of Industrial Engineering Sharif University of Technology Session # Rapid Prototyping Contents: Rapid prototyping and manufacturing RP primitives Application
More informationChapter 2. Literature Review
Chapter 2 Literature Review This chapter reviews the different rapid prototyping processes and process planning issues involved in rapid prototyping. 2.1 Rapid Prototyping Processes Most of the rapid prototyping
More information3D Printing Technologies and Materials. Klaus Gargitter
3D Printing Technologies and Materials Klaus Gargitter Agenda 3D Printing Technologies and Materials 3D printing technologies SLA /DLP CLIP/CDLP Material Jetting SLS FDM Near Future 3D Printing technologies
More informationDesign, Planning, Machining, and Manufacturing Using Rapid Prototyping Technologies in Modern Engineering Md.Hira Hashimi, Md Abdul Basith
International Journal of Scientific Research and Management (IJSRM) Volume 5 Issue 01 Pages 5064-5074 2017 Website: www.ijsrm.in ISSN (e): 2321-3418 Design, Planning, Machining, and Manufacturing Using
More informationRapid prototyping for engineers.
Rapid prototyping for engineers carmelo.demaria@centropiaggio.unipi.it 3D world A picture says than 1000 words...... a model tells the whole story Building 3D object Building 3D object: subtractive Milling
More informationRapid Prototyping Rev II
Rapid Prototyping Rev II D R. T A R E K A. T U T U N J I R E V E R S E E N G I N E E R I N G P H I L A D E L P H I A U N I V E R S I T Y, J O R D A N 2 0 1 5 Prototype A prototype can be defined as a model
More informationMDMD Rapid Product Development
MSc in Manufacturing and Welding Engineering Design - Dr.-Eng. Antonios Lontos Department of Mechanical Engineering School of Engineering and Applied Sciences Frederick University 7 Y. Frederickou Str.,
More informationAdditive manufacturing.
Additive manufacturing carmelo.demaria@centropiaggio.unipi.it Building 3D object Building 3D object: subtractive Milling Turning Drilling Planning Sawing Grinding EDM Laser cutting Water jet cutting Building
More informationTechniques of Rapid Prototyping and Comparision with Computer Numerically Controlled Machining
IUBAT Review A Multidisciplinary Academic Journal Arijit Sen. 2017. Techniques of Rapid Prototyping and comparison with Computer Numerically Controlled Machining. IUBAT Review 1 (2): 69-76. iubat.edu/journal
More informationINNOVATIONS IN 3D PRINTING MATERIALS FOR ADDITIVE MANUFACTURING. Dr Mike J Idacavage, Amelia Davenport and Dr Neil Cramer
INNOVATIONS IN 3D PRINTING MATERIALS FOR ADDITIVE MANUFACTURING Dr Mike J Idacavage, Amelia Davenport and Dr Neil Cramer Introduction Prototyping Targeted Performance Properties Improve the dimensional
More informationApril 27, :38 9in x 6in B-741 b741-ch13 FA
CHAPTER 13 Inkjet 3D Printing Eduardo Napadensky Objet Geometries Ltd., Israel INTRODUCTION Inkjet three-dimensional (3D) Printing is a fast, flexible and cost effective technology which enables the construction
More information3D printing as an inspiring technology for challenges in 21 st century
3D printing as an inspiring technology for challenges in 21 st century Marianna Zichar zichar.marianna@inf.unideb.hu/homepage University of Debrecen Faculty of Informatics HUNGARY 18.05.2017, Valencia
More informationSURVEY OF RAPID PROTOTYPING TECHNOLOGY IN MECHANICAL SCALE MODELS
SURVEY OF RAPID PROTOTYPING TECHNOLOGY IN MECHANICAL SCALE MODELS 1 NISHAN SHETTY, 2 NISCHITH SHETTY 1,2 Mechanical Engineering Department, DayanandaSagar College of Engineering, Bangalore, India Email:
More informationAnalogue Processes, Additive Manufacturing and RepRap
Analogue Processes, Additive Manufacturing and RepRap Adrian Bowyer 9 March 2012 5 ways to make things 1. Cut 5 ways to make things 2. Bend 5 ways to make things 3. Mould 5 ways to make things 4. Add 5
More informationADAPTIVE LAMINATED MACHINING FOR PROTOTVPING OF DIES AND MOLDS
ABSTRACT ADAPTIVE LAMINATED MACHINING FOR PROTOTVPING OF DIES AND MOLDS F. A. Vouzelaud and A. Bagchi Department of Mechanical Engineering Center for Advanced Manufacturing Clemson University Clemson,
More informationAn introduction to. the Additive Direct Digital Manufacturing (DDM) Value Chain. Terrence J. McGowan Associate Technical Fellow Boeing
An introduction to the Additive Direct Digital Manufacturing (DDM) Value Chain Terrence J. McGowan Associate Technical Fellow Boeing Copyright 2015 2014 Boeing. All rights reserved. GPDIS_2015.ppt 1 Intro
More informationMaximizing your 3D Printing Workflow
Maximizing your 3D Printing Workflow Integration of Solid Edge & 3YOURMIND The Solid Edge-3YOURMIND print service portal provides an end-to-end additive manufacturing solution (AM) for product development.
More informationAugust 29, Reverse Engineering Equipment:
August 29, 2008 At WCU in the ET Program, course content is brought to life through collaborative projects at our Center for Rapid Product Realization where students come into contact with industry leading
More informationCOPYRIGHTED MATERIAL RAPID PROTOTYPING PROCESS
2 RAPID PROTOTYPING PROCESS The objective of rapid prototyping is to quickly fabricate any complex-shaped, three-dimensional part from CAD data. Rapid prototyping is an example of an additive fabrication
More informationPROCESS PLANNING FOR SHAPE DEPOSITION MANUFACTURING
PROCESS PLANNING FOR SHAPE DEPOSITION MANUFACTURING a dissertation submitted to the department of mechanical engineering and the committee on graduate studies of stanford university in partial fulfillment
More informationHP 3D Multi Jet Fusion DYNAGRAPH 08/05/2018
HP 3D Multi Jet Fusion DYNAGRAPH 08/05/2018 1 Contents DISRUPT TO CREAT CHANGE CURRENT AVAILABLE 3D TECHNOLOGIES WHAT MAKES HP 3D MJF DIFFERENT HOW HP 3D MJF WORKS POST FINISHING MATERIALS MARKET OPPORTUNITIES
More information3D Printing in the FIRST Community. IN FIRST FORUMS Rufus Cochran 10/22/2016
3D Printing in the FIRST Community IN FIRST FORUMS Rufus Cochran 10/22/2016 Hello, I am Rufus Cochran 447 student from 2001 to 2006 From Co-Operation FIRST to Aim High FIRST mentor for a decade 447 and
More informationA Review on 3D Printing and Technologies Used For Developing 3D Models
A Review on 3D Printing and Technologies Used For Developing 3D Models Priyanka Takalkar 1, Prof. A. S. Patel 2 ME Scholar 1, Asst. Prof. 2, Departme nt of E & TC, MSSCET, Jalna ABSTRACT This paper presents
More informationStudy of RP&M and Implementation of the Software For General Part Fabrication
Study of RP&M and Implementation of the Software For General Part Fabrication Submitted to Committee Members Dr. Kai-Hsiung Chang Dr. Bor.Z Jang Dr. Wen-Chen Hu By Qiang Yao In Partial Fulfillment of the
More informationTTH 3D Printing Handbook
A Guide to Understanding and Applying the 3D Printing Process Page 2 The technology and techniques of 3D printing and additive manufacturing have drastically changed and improved over the years. These
More informationAdditive Manufacturing
Additive Manufacturing Prof. J. Ramkumar Department of Mechanical Engineering IIT Kanpur March 28, 2018 Outline Introduction to Additive Manufacturing Classification of Additive Manufacturing Systems Introduction
More informationComputational Tools for 3D Printing Ariel Shamir Bernd Bickel Wojciech Matusik
Computational Tools for 3D Printing Ariel Shamir Bernd Bickel Wojciech Matusik About This Course Basics of 3D printing hardware and software Computation, 3D printing, interactive techniques Overview of
More informationFigure 1
Figure 1 http://www.geeky-gadgets.com/wp-content/uploads/2013/11/robox-3d-printer5.jpg Table of Contents What 3D printing is... 1 How does 3D Printing work?... 1 Methods and technologies of 3D Printing...
More informationPrinter specifications
STUDIO SYSTEM Printer specifications The printer was designed from the ground-up for simple installation and use. Its process is similar to the safest, most widely used 3D printing process Fused Filament
More informationComputer Aided Engineering Applications 3. Advanced Manufacturing 3.5 NC programming 3.6 Automated Manufacturing systems 3.7 Rapid prototyping
Computer Aided Engineering Applications 3. Advanced Manufacturing 3.5 NC programming 3.6 Automated Manufacturing systems 3.7 Rapid prototyping Engi 6928 - Fall 2014 3.5 Part programming Structure of an
More informationStratasys 3D Printing Systems
Stratasys 3D Printing Systems Alessio Caldano Technimold 1 ST RATASYS / THE 3D PRINTING SOLUTIONS COMPANY 2 ST RATASYS / THE 3D PRINTING SOLUTIONS COMPANY ABOUT 3D PRINTING ABOUT STRATASYS We help designers,
More informationAchieving Higher Level Data Interoperability with 3D Printing
Achieving Higher Level Data Interoperability with 3D Printing Sally Chan Associate Technical Fellow Copyright 2014 Boeing. All rights reserved. GPDIS_2015.ppt 1 Biography Education B.A. UCLA Design M.A.
More informationI R MASTER'S THESIS. An Integrated Rapid Prototyping and Vacuum Casting System for Medical Applications. by Rena Surana Advisor: Guangming Zhang
MASTER'S THESIS An Integrated Rapid Prototyping and Vacuum Casting System for Medical Applications by Rena Surana Advisor: Guangming Zhang MS 97-11 I R INSTITUTE FOR SYSTEMS RESEARCH ISR develops, applies
More informationProcess Chain for Fabrication of External Maxillofacial Prosthesis Using Additive Manufacturing
Research Article imedpub Journals http://www.imedpub.com Journal of Healthcare Communications ISSN 2472-1654 DOI: 10.4172/2472-1654.100067 Process Chain for Fabrication of External Maxillofacial Prosthesis
More informationNew product design using prototype manufacturing using CAD-CAM-CAE 3D printing and Analysis
New product design using prototype manufacturing using CAD-CAM-CAE 3D printing and Analysis Tapasya.Borate 1, R.S Shelake 2 1 Student, Mechanical, SVIT, Maharashtra, India 2 Professors, Mechanical, SVIT,
More information1. a) Explain PROMETAL Rapid Tooling Technique in detail. b) What is the difference between Soft Tooling and Hard Tooling?
PES INSTITUTE OF TECHNOLOGY BANGALORE SOUTH CAMPUS Hosur Road, (1K.M. Before Electronic City), Bangalore 560 100 DEPARTMENT OF MECHANICAL ENGINEERING SCHEME AND SOLUTION III INTERNAL TEST Subject :RAPID
More informationDesign for Manufacture
ME170 CAD Design for Manufacture Instructor: Mike L. Philpott mphilpot@illinois.edu Part A - Introduction to Sheet Metal, Injection Molding of Plastics, and Rapid Prototyping Design for Manufacture (DFM)
More informationA Method for Slicing CAD Models in Binary STL Format
6 th International Advanced Technologies Symposium (IATS 11), 16-18 May 2011, Elazığ, Turkey A Method for Slicing CAD Models in Binary STL Format O. Topçu 1, Y. Taşcıoğlu 2 and H. Ö. Ünver 3 1 TOBB University
More information3D Printed Droid Parts
3D Printed Droid Parts 1 8/6/13 02:45:36 PM Outline Background of 3D Printing Typical 3D Printers The 3D Printing Process 3D Printing Capabilities & Limitations Designing Parts for 3D printing Foibles
More information3D PRINTING TECHNOLOGY
ABSTRACT 3D PRINTING TECHNOLOGY Mrs. Rita S. Pimpalkar Mr. Akshay D. Gosavi Mr. Pavankumar K. Godase Mr. Nandkishor B. Gutte 3D printing is a process of making a three -dimensional solid objects from a
More informationIntroduction to CAD/CAM/CAE
Introduction to CAD/CAM/CAE Introduction CAD(Computer Aided Design) CAM(Computer Aided Manufacturing) CAE(Computer Aided Engineering) Memory capacity, processing speed, Interactive graphics Quality, Cost,
More informationRESTRICTED WORLD TRADE G/IT/SPEC/8/Rev.1 23 February 1998 ORGANIZATION PROPOSED ADDITIONS TO PRODUCT COVERAGE. Submission by Australia.
RESTRICTED WORLD TRADE G/IT/SPEC/8/Rev.1 23 February 1998 ORGANIZATION (98-0664) Committee of Participants on the Expansion of Trade in Information Technology Products Original: English PROPOSED ADDITIONS
More information쾌속조형 (Rapid Prototyping, RP) 기술의이해와응용
캐드앤그래픽스 C&G TV 지식방송 / 이슈 쾌속조형 (Rapid Prototyping, RP) 기술의이해와응용 안성훈교수 서울대학교기계항공공학부 2008. 11. 12. Outline Introduction Processes Applications Nano Composite Deposition System (NCDS) Summary Introduction
More information3D Printing A Processing Approach CONTENTS
3D Printing A Processing Approach 1 CONTENTS 3D Printing Workflow Digital Modeling Simple Rules for Printable Model Digital Modeling Tools Case 1 Battery Cover Case 2 Housing Case 3 Broken Edge Repair
More informationSEER-3D 2.0 Release Notes
1 Welcome to the SEER-3D 2.0.12 update release. This version includes: A new Additive Manufacturing interface to support Additive Manufacturing options in SEER-MFG 8.1. A new command line interface (CLI)
More informationThe interfacing software named PSG Slice has been developed using the. computer programming language C. Since, the software has a mouse driven
CHAPTER 6 DEVELOPMENT OF SLICING MODULE FOR RAPID PROTOTYPING MACHINE 6.1 INTRODUCTION The interfacing software named PSG Slice has been developed using the computer programming language C. Since, the
More informationState of 3D Printing. Survey Results. A review of 3D Printing in southeastern Wisconsin
State of 3D Printing Survey Results A review of 3D Printing in southeastern Wisconsin Introduction In December of 2017, Big Systems conducted an online survey entitled The State of 3D Printing in Southeastern
More informationThe Future of 3D Printing. Michael Wilson 3M Buckley Innovation Centre, Huddersfield
The Future of 3D Printing Michael Wilson 3M Buckley Innovation Centre, Huddersfield What will be covered What the 3D printing process is like What is on the horizon in terms of Potential business threats
More informationSYSTEMS ADVANCED PROCESSING THROUGH RAPID PROTOTYPING
PRODUCTICA Scientific Session Online ISSN 2067-9564 23 rd April 2010 127 SYSTEMS ADVANCED PROCESSING THROUGH RAPID PROTOTYPING Marius Costin V. MANEA 1, Andrei C. IONESCU 2 Rezumat: Prototipajul rapid
More information3D PRINTING METHODS AND TECHNOLOGIES: A SURVEY
3D PRINTING METHODS AND TECHNOLOGIES: A SURVEY Aayush Srivastava 1, Akshat Singhal 2, Aman Sachan 3 1,2,3 Author Student, Computer Engineering, Bharati Vidyapeeth Deemed University C.O.E, Pune, Maharashtra,
More informationCRYSTALLIZING DESIGN INTENTIONS, USING CNC, LASER AND RAPID PROTOYTPING TECHNOLOGIES
CRYSTALLIZING DESIGN INTENTIONS, USING CNC, LASER AND RAPID PROTOYTPING TECHNOLOGIES B. KENZARI Department of Architectural Engineering UAE University Al-Ain PoBox 17555 U.A.E. b.kenzari@uaeu.ac.ae Abstract.
More information251 Presentations Dr. Rosen. Benay Sager Ameya Limaye Lauren Margolin Jamal Wilson Angela Tse
251 Presentations Dr. Rosen Benay Sager Ameya Limaye Lauren Margolin Jamal Wilson Angela Tse Use of Cure Modeling in Process Planning to Improve SLA Surface Finish Benay Sager SRL Presentation June 7,
More informationDESIGN AND DEVELOPMENT OF A FUSED DEPOSITION MODELLING RAPID PROTOTYPING MACHINE
International Journal of Advances in Scientific Research and Engineering (ijasre) E-ISSN : 2454-8006 Vol.3, Special Issue 1 Aug - 2017 DESIGN AND DEVELOPMENT OF A FUSED DEPOSITION MODELLING RAPID PROTOTYPING
More informationThe Optimization of Surface Quality in Rapid Prototyping
The Optimization of Surface Quality in Rapid Prototyping MIRCEA ANCĂU & CRISTIAN CAIZAR Department of Manufacturing Engineering Technical University of Cluj-Napoca B-dul Muncii 103-105, 400641 Cluj-Napoca
More information3D Printing. Bringing new dimensions to advanced visualization A FEATURED EBOOK
A FEATURED EBOOK 3D Printing Bringing new dimensions to advanced visualization A 3D Printing CONTENTS 3 4 5 6 7 8 What is 3D Printing? Obstacles to Widespread Adoption Voxels to Vectors Printers and Materials
More information3D PRINTER USING ARDUINO 644p FIRMWARE
International Journal of Recent Innovation in Engineering and Research Scientific Journal Impact Factor - 3.605 by SJIF e- ISSN: 2456 2084 3D PRINTER USING ARDUINO 644p FIRMWARE Samarshi Baidya 1, Manyala
More informationAvailable online at ScienceDirect. Procedia Engineering 149 (2016 )
Available online at www.sciencedirect.com ScienceDirect Procedia Engineering 149 (2016 ) 100 104 International Conference on Manufacturing Engineering and Materials, ICMEM 2016, 6-10 June 2016, Nový Smokovec,
More informationROBUST PROTOTYPING. Jana K. Chari Dr. Jerry L. Hall
ROBUST PROTOTYPING Jana K. Chari Dr. Jerry L. Hall Department of Mechanical Engineering Engel Manufacturing Laboratory Iowa State University Ames, IA 50011 Submitted for Publication in Solid Freeform Fabrication
More information3D Turtle Graphics by 3D Printers. Yasusi Kanada Dasyn.com
3D Turtle Graphics by 3D Printers Yasusi Kanada Dasyn.com Introduction: Conventional 3D Object Design and Printing FDM-type 3D printers There are many types of 3D printers, but a popular cheap one is called
More informationGeometric Modeling for Rapid Prototyping and Tool Fabrication
Geometric Modeling for Rapid Prototyping and Tool Fabrication E. Levent Gursoz Lee E. Weiss Fritz B. Prinz The Engineering Design Research Center, and The Robotics Institute Carnegie Mellon University
More informationSmart Integration of JT in Additive Manufacturing - A Use Case for 3D Printing
Smart Integration of JT in Additive Manufacturing - A Use Case for 3D Printing ProSTEP ivip Symposium 2015 May 6 th, 2015 Marco Grimm, Alexander Christ, Reiner Anderl 1 Outline 1 Motivation 2 Additive
More information3D SCANNING FOR 3D PRINTING: MAKING REALITY DIGITAL AND THEN PHYSICAL AGAIN. Michael Raphael Founder & CEO
3D SCANNING FOR 3D PRINTING: MAKING REALITY DIGITAL AND THEN PHYSICAL AGAIN ) Michael Raphael Founder & CEO mraphael@dirdim.com 410-998-0880 3D Scanning vs. 3D Printing Both over 20 years old, actually
More informationCase study: Bringing 3D Printed Electronics into Mass Production Lessons Learned
Case study: Bringing 3D Printed Electronics into Mass Production Lessons Learned Mike O Reilly Optomec, Inc. Henrik Johansson LiteON Mobile Mechanical About Optomec Leader in Printed Electronics and Additive
More informationMulti Material Voxel Based 3D Printing
Multi Material Voxel Based 3D Printing A new horizon in composition freedom Oren Zoran Head of Technology & Innovation Group Stratasys LTD 1 STRATASYS / THE 3D PRINTING SOLUTIONS COMPANY Stratasys 3D Printing
More information3D PRINTING 1. INTRODUCTION 2. HISTORY 3. GENERAL PRINCIPLES 4. WORKFLOW 5. APPLICATIONS 6. CONCLUSION CONTENT: 12 DECEMBER 2017 PETR VALENTA
3D PRINTING 1 12 DECEMBER 2017 PETR VALENTA CONTENT: 1. INTRODUCTION 2. HISTORY 3. GENERAL PRINCIPLES 4. WORKFLOW 5. APPLICATIONS 6. CONCLUSION 1. Introduction 2 2005 2007, Software: Blender 1. Introduction
More informationWe are IntechOpen, the first native scientific publisher of Open Access books. International authors and editors. Our authors are among the TOP 1%
We are IntechOpen, the first native scientific publisher of Open Access books 3,350 108,000 1.7 M Open access books available International authors and editors Downloads Our authors are among the 151 Countries
More informationRelease Notes: MaterialUniverse Data Module for GRANTA MI
Release Notes: MaterialUniverse Data Module for GRANTA MI December 2014 Release The Granta MaterialUniverse data module provides engineering, economic, and environmental property profiles designed for
More informationDental Lab Additive Manufacturing Systems
S p r i n g 2 0 1 3 Dental Lab Additive Manufacturing Systems DWS profile DWS, Additive Manufacturing DWS, Digital Wax Systems, was founded in Italy, in Vicenza, in 2007. It already had a long experience
More informationAdditive manufacturing with NX
Additive manufacturing with processes. By using you have the power to drive the latest additive manu facturing equipment, including powder bed 3D printers. Delivering design, simulation and manufacturing
More informationSTUDY OF THE IMPACT OF THE RAPID PROTOTYPING METHOD ON THE PERFORMANCES OF A DESIGN PROCESS
STUDY OF THE IMPACT OF THE RAPID PROTOTYPING METHOD ON THE PERFORMANCES OF A DESIGN PROCESS Daniel-Constantin Anghel, Nadia Belu University of Pitesti, Romania KEYWORDS Rapid prototyping, DSM, design experiment,
More informationEVALUATION OF ACCURACY AND USEFULLNES OF OPTICAL ENCODER MADE WITH 3D PRINTER
EVALUATION OF ACCURACY AND USEFULLNES OF OPTICAL ENCODER MADE WITH 3D PRINTER M.Sc. Eng Wiktor Harmatys, M.Sc. Eng Piotr Gąska, M.Sc. Eng Maciej Gruza, Abstract Rapid Prototyping Techniques allow to put
More informationA New Slicing Procedure for Rapid Prototyping Systems
Int J Adv Manuf Technol (2001) 18:579 585 2001 Springer-Verlag London Limited A New Slicing Procedure for Rapid Prototyping Systems Y.-S. Liao 1 and Y.-Y. Chiu 2 1 Department of Mechanical Engineering,
More informationLECTURE NOTES ON Rapid Prototyping
LECTURE NOTES ON Rapid Prototyping PREPARED BY Dr PRAMOD KUMAR PARIDA ASSISTANT PROFESSOR DEPARTMENT OF MECHANICAL ENGINEERING COLLEGE OF ENGINEERING & TECHNOLOGY (BPUT) BHUBANRSWAR Syllabus PEME5303 RAPID
More information3d Building Model Printing
Volume 6 Issue V, May 2018- Available at www.ijraset.com 3d Building Model Printing Vidula Waskar 1, Gautami Ugale 2, Akshaya Taralekar 3 1 Assistant Professor, 2, 3 Student, Department of Civil Engineering,
More informationCS 285 Final Project - Design, Modeling and Fabrication of the Möbius Gear
CS 85 Final Project - Design, Modeling and Fabrication of the Möbius Gear Aaron M. Hoover May 14, 006 1 Introduction The purpose of this final project, undertaken for CS95 - Procedural Solid Modeling,
More informationTechnical keys to understand 3D-printing. Lucile BONHOURE. Sartomer, Arkema
RTE Conference & Exhibition 2017 Technical keys to understand 3D-printing Lucile BONHOURE Sartomer, Arkema Prague, October 19th, 2017 Agenda Introduction to 3D-Printing, stakes and technical challenges
More informationDesign And Integration Of A Laser-Based Material Deposition System
Design And Integration Of A Laser-Based Material Deposition System J. Laeng@Jamaluddin Abdullah*, Frank Liou**, M.N. Mohamad Ibrahim and W.M. Wan Muhammad* *School of Mechanical Engineering, Universiti
More informationTOOL PATH GENERATION FOR 5-AXIS LASER CLADDING
TOOL PATH GENERATION FOR 5-AXIS LASER CLADDING Author: M. Kerschbaumer *, G. Ernst * P. O Leary ** Date: September 24, 2004 * JOANNEUM RESEARCH Forschungsgesellschaft mbh Laser Center Leoben, Leobner Strasse
More information3D PRINTING TECHNIQUES AND RAPID PROTOTYPING. Distributed in Australia by: Document Solutions
3D PRINTING TECHNIQUES AND RAPID PROTOTYPING Distributed in Australia by: Document Solutions CONTENTS INTRODUCTION 3 3D PRINTING PROCESS 4 3D PRINTING TECHNOLOGIES 6 FUSED FILAMENT FABRICATION 7 STEREO-LITHOGRAPHY
More informationGantry Melting 3D Printer
Gantry Melting 3D Printer Hongzhi Chen 1, a 1 School of Shandong, Shandong University of Science and Technology, Qingdao, 266590, China. Abstract a 835889654@qq.com 3D printing technology is a new manufacturing
More informationAdditive Manufacturing Module 2
Additive Manufacturing Module 2 Spring 2015 Wenchao Zhou zhouw@uark.edu (479) 575-7250 The Department of Mechanical Engineering University of Arkansas, Fayetteville Energy Additive: reducing material interface
More informationUsing intra oral scanning and CAD-CAM technology to create accurate and esthetic restorations
Using intra oral scanning and CAD-CAM technology to create accurate and esthetic restorations ITI Canadian Section Meeting, Montreal May 7, 2011 Professor Ivar A Mjor Jan 1986: Crash of their mainframe
More information4/26/2014. Sharif University of Technology. Session # 11. Instructor. Class time. Course evaluation. Department of Industrial Engineering
Advanced Manufacturing Laboratory Department of Industrial Engineering Sharif University of Technology Session # 11 Instructor Omid Fatahi Valilai, Ph.D. Industrial Engineering Department, Sharif University
More informationAutodesk Moldflow Adviser. Validate designs quickly.
Autodesk Moldflow Adviser Validate designs quickly. Put Plastics Simulation on Every Designer s Desktop Today, most manufacturing processes include the production of injection-molded plastic parts, a complicated
More informationELEC 391 3D Printing D Printing ECE Lightning Lab. 3D Printing
3D Printing ECE Lightning Lab 3D Printing Fused Deposition Modeling (FDM) Extrusion printing Plastic melted and extruded to create features layer by layer PLA (polylactic acid) ABS (acrylonitrile butadiene
More information3D Industry Quick Snapshot. Survey of SE WI Manufacturing. 3D Technology Options and Scaling for Manufacturing
Joe Jones President Big Systems, LLC 3D Industry Quick Snapshot Survey of SE WI Manufacturing 3D Technology Options and Scaling for Manufacturing Case Studies Look Forward 888.244.4177 1 Rapid growth:
More informationPRE: See Yun Jaan 15 Jul 08 Rev C. APP: Leong See Fan DCR No. D _438039
Application 114-1114 Specification PRE: See Yun Jaan 15 Jul 08 Rev C APP: Leong See Fan DCR No. D20080715001838_438039 SO(Small Outline) DIMM (Dual-In Memory Module) Sockets, 144 Positions with 0.8mm Centerline
More informationAdditive Manufacturing (AM) in a Nutshell Spring 2016 Nick Meisel
Additive Manufacturing (AM) in a Nutshell Spring 2016 Nick Meisel Additive vs. Subtractive Manufacturing Traditional subtractive manufacturing involves the removal of unwanted material from a block of
More informationThe Use ofvrml to Integrate Design and Solid Freeform Fabrication
The Use ofvrml to ntegrate Design and Solid Freeform Fabrication Yanshuo Wang Jian Dong * Harris L. Marcus Solid Freeform Fabrication Laboratory University ofconnecticut Storrs, CT 06269 ABSTRACT The Virtual
More informationCAD - CAM Procedures Used for Rapid Prototyping of Prosthetic Hip Joint Bone
IOP Conference Series: Materials Science and Engineering PAPER OPEN ACCESS CAD - CAM Procedures Used for Rapid Prototyping of Prosthetic Hip Joint Bone To cite this article: Luminita I. Popa and Vasile
More information3D Printer Overview 2013
1 PERSONAL 3D PRINTERS Cube Home 3D Printer Our first 3D printer designed to bring your creations to life in brilliant colors right in your home just plug in and print! Wi Fi Printing Print up to a 5.5
More informationEntrepreneurship. Prototyping. December 10, 2008 Product Design and Development - Chapter 12
Product Development & Entrepreneurship Prototyping 1 2 Product Development Process Planning Concept Development System-Level Design Detail Design Testing and Refinement Production Ramp-Up Prototyping is
More informationRAPID PROTOTYPING TECHNOLOGY AND ITS APPLICATIONS
RAPID PROTOTYPING TECHNOLOGY AND ITS APPLICATIONS 1. SHASHWAT DWIVEDI, 2.SHALU RAI 1.UG Student, Dept. of Mechanical Engineering, Krishna Institute of Engineering and Technology, Ghaziabad, U.P., India
More informationRapid Prototyping Technologies
15-294 Rapid Prototyping Technologies Instructor: Dave Touretzky TAs: Meg Richards Adam Moran Chase Klingensmith 5.0 Units / 7 Weeks (Mini) http://www.cs.cmu.edu/afs/cs/academic/class/15294t-s16 1 2 Three
More informationThe Concurrent Engineering Design Paradigm is Now Fully Functional for Graphics Education
The Concurrent Engineering Design Paradigm is Now Fully Functional for Graphics Education Thomas J. Krueger and Ronald E. Barr University of Texas at Austin 78712-1063 Abstract Engineering design graphics
More informationApplied Finite Element Method Simulation in 3D Printing
Applied Finite Element Method Simulation in 3D Printing M. Iliescu, E. Nuţu, B. Comănescu Abstract 3D printing, as part of Rapid Prototyping Technology, is a modern and efficient way of reducing product
More informationThis version was downloaded from Northumbria Research Link:
Citation: Hackney, Philip and Sarwar, Mohammed (2003) An Evaluation of Rapid Prototyping Concept Modelling Techniques for New Product Development. In: 13th International Conference on Flexible Automation
More informationAutodesk Moldflow Adviser AMA Model Import Formats
Autodesk Moldflow Adviser 212 AMA Model Import Formats Revision 1, 16 March 212. Contents Chapter 1 Supported model import formats....................... 1 Supported model import formats................................
More informationThe Design And Development Of An Additive Fabrication Process And Material Selection Tool
University of Central Florida Electronic Theses and Dissertations Masters Thesis (Open Access) The Design And Development Of An Additive Fabrication Process And Material Selection Tool 2009 Andrew Palmer
More informationProgress on Tooling by 3D Printing; Conformal Cooling,
Progress on Tooling by 3D Printing; Conformal Cooling, Dimensional Control, Surface Finish and Hardness Emanuel Sachs, Samuel Allen, Honglin Guo, Javier Banos, Michael Cima, James Serdy, and David Brancazio
More information