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A presentation on. Rapid Prototyping. Siddhesh Keluskar Indian Institute of Technology, Kharagpur. Content. Introduction Need Process Methods Applications Advantages Summary References. Definition.
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A presentation on Rapid Prototyping Siddhesh Keluskar Indian Institute of Technology, Kharagpur
Content • Introduction • Need • Process • Methods • Applications • Advantages • Summary • References
Definition • Rapid Prototyping (RP) can be defined as a group of techniques used to quickly fabricate a scale model of a part or assembly using three-dimensional computer aided design (CAD) data.
Need for Rapid Prototyping • To decrease development time. • To decrease costly mistakes. • To minimize sustaining engineering changes. • To increase effective communication. • Give engineers, manufacturers, marketing and purchasing personals a look at product in early design stages. • To identify faults and errors well in advance. • Increasing number of variants of products.
3D CAD model of the design in standard formats like .DWG, .IGES, .STEP is taken. The model is broken into several layers along Z-direction. Z direction http://blog.123dapp.com/files/Autodesk_123D_Make.png
Convert CAD to .STL format, with predefined step size that is layer size. • The RP machine processes the .STL file by creating sliced layers of the model. • The first layer of the physical model is created. • The model is then lowered by the thickness of the next layer, and the process is repeated until completion of the model. • The model and any supports are removed. • The surface of the model is then finished and cleaned.
Different methods for Rapid Prototyping • Stereo lithography • Selective Laser Sintering • Fused Deposition Modelling • Laminated Object Manufacturing
Stereo lithography • Polymerization of photosensitive liquid resin by laser beam. • The reaction in presence of laser causes resin to harden. • The scanning laser creates layer by layer image along Z-axis. • The platform is lowered and process is repeated.
Stereo lithography http://www.custompartnet.com/wu/stereolithography
http://upload.wikimedia.org/wikipedia/commons/1/1e/Stereolithography_apparatus.jpghttp://upload.wikimedia.org/wikipedia/commons/1/1e/Stereolithography_apparatus.jpg
Selective Laser Sintering • Fine polymeric powder like polystyrene, polycarbonate or polyamide is used • Preheated bed is used • Laser beam is used to heat and fuse the powder thus creating a layer • The bed is lowered by distance equal to layer thickness and process repeats.
Selective layer sintering http://en.wikipedia.org/wiki/Selective_laser_sintering
http://www.custompartnet.com/wu/images/rapid-prototyping/sls.pnghttp://www.custompartnet.com/wu/images/rapid-prototyping/sls.png
Fused Deposition Modelling • Works similar to inkjet printer • A polymer wire is used as base material. • Wire is melted and is sprayed from hot nozzle to create one layer of material. • Once this layer hardens, another coat is sprayed and process is repeated. http://en.wikipedia.org/wiki/Fused_deposition_modeling
Laminated object manufacturing • Base material is in the form of rolled sheets with adhesive material on its surface. • This sheet is feed through rollers. • A C02 laser is used to cut 1 layer at a time. • The cut portion adheres and rest is scrapped off thus creating required image. • Many such images stacked up form object.
http://www.custompartnet.com/wu/images/rapid-prototyping/lom.pnghttp://www.custompartnet.com/wu/images/rapid-prototyping/lom.png
Applications • Used for better visualization of product, sales and marketing presentations. • To make machine tools. • patterns for intrinsic shapes. • To test part before final manufacturing. • Manufacturing of certain products like lenses. • Used in aerospace, biomedical, engineering models manufacturing.
Advantages • Is quicker than actual machining of product, saves time • Suitable for low volume production • It enhances product development
Summary • Rapid prototyping is a fast and accurate method of manufacturing • Through proper software and hardware application is very easy • Complex and difficult to machine shapes can be manufactured quickly • There are various methods for prototyping, selection is made depending on the requirement • This method is gaining popularity in varied fields
References • http://www.efunda.com/processes/rapid_prototyping/intro.cfm • http://www.3dprototype.com/needtoknow.html • http://en.wikipedia.org/wiki/Fused_deposition_modeling • Pandey, P.M., Reddy, N.V., Dhande, S.G. Rapid Prototyping technology, applications and planning, International Journal of Machine Tools and Manufacture,2003. • Yan Yongnian , Li Shengjie ,Rapid Prototyping and Manufacturing Technology: Principle, Representative Techniques, Applications, and Development Trends. Tsinghua science and technology journal ISSN 1007-0214, volume 14, June 2009
Image sources • http://sites.psu.edu/engineeringdesign100/2012/03/06/rapid-prototyping/ • http://www.quickembed.com/Tools/Shop/UploadPhotos/201209/20120913122209104.jpg • http://d1949180.i149.quadrahosting.com.au/images_for_use/667_79_full.jpg • http://www.teufel-prototypen.de/images/stories/dienstleistungen/sls.jpg • http://3d-cam.com/images/product_pages/sla.jpg • http://www.quickparts.com/UserFiles/Image/IMG_9238.JPG