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1st Edit- 3D MODELING- 3D Printing

https://www.3dhubs.com/what-is-3d-printing

3D printing is a form of additive manufacturing technology where a three dimensional object is created by laying down or build from successive layers of material.

3D printing is a great way to create objects because you can create objects that you couldn't make otherwise without having complex expensive molds created or by having the objects made with multiple parts. A 3D printed part can be edited by simply editing the 3D model. That avoids having to do any additional tooling which can save time and money. 3D printing is great for testing out an idea without having to go through the production process which is great for getting a physical form of the person/company's idea.

In recent years, there has been an upsurge in the number of companies offering personalized 3D printed models of objects that have been scanned, designed in CAD software, and then printed to the customer's requirements. As previously mentioned, 3D models can be purchased from online marketplaces and printed by individuals or companies using commercially available 3D printers, enabling the home-production of objects such as spare parts,^[1] mathematical models,^[2] and even medical equipment.^[3]

2nd Edit- 3D MODELING- Models

http://www.brighthubengineering.com/cad-autocad-reviews-tips/19623-applications-of-cad-software-what-is-solid-modeling/

Three-dimensional (3D) models represent a physical body using a collection of points in 3D space, connected by various geometric entities such as triangles, lines, curved surfaces, etc. Being a collection of data (points and other information), 3D models can be created by hand, algorithmically (procedural modeling), or scanned. Their surfaces may be further defined with texture mapping.

3D models are widely used anywhere in 3D graphics and CAD. Their use predates the widespread use of 3D graphics on personal computers. Many computer games used pre-rendered images of 3D models as sprites before computers could render them in real-time. The designer can then see the model in various directions and views, this can help the designer see if the object is created as intended to compared to their original vision. Seeing the design this way can help the designer/company figure out changes or improvements needed to the product.

Today, 3D models are used in a wide variety of fields. The medical industry uses detailed models of organs; these may be created with multiple 2-D image slices from an MRI or CT scan. The movie industry uses them as characters and objects for animated and real-life motion pictures. The video game industry uses them as assets for computer and video games. The science sector uses them as highly detailed models of chemical compounds. The architecture industry uses them to demonstrate proposed buildings and landscapes in lieu of traditional, physical architectural models. The engineering community uses them as designs of new devices, vehicles and structures as well as a host of other uses. In recent decades the earth science community has started to construct 3D geological models as a standard practice. 3D models can also be the basis for physical devices that are built with 3D printers or CNC machines

Testing a 3D Solid Model

3D Solid models can be tested in different ways depending on what is needed by using simulation, mechanism design, and analysis. If a motor is designed and assembled correctly (this can be done differently depending on what 3D modeling program is being used), using the mechanism tool the user should be able to tell if the motor or machine is assembled correctly correctly by how it operates. Different design will need to be tested in different ways. For example; a pool pump would need a simulation ran of the water running through the pump to see how the water flows through the pump. These test verify if a product id developed correctly or if it needs to me modified to meet its requirements.

^ "3D Printing Toys". Business Insider. Retrieved 25 January 2015.
^ "Printout3D—Wolfram Language Documentation". reference.wolfram.com. Retrieved 2016-08-06.
^ "New Trends in 3D Printing – Customized Medical Devices". Envisiontec. Retrieved 25 January 2015.

[1] "3D Printing Toys". Business Insider. Retrieved 25 January 2015.

[2] "Printout3D—Wolfram Language Documentation". reference.wolfram.com. Retrieved 2016-08-06.

[3] "New Trends in 3D Printing – Customized Medical Devices". Envisiontec. Retrieved 25 January 2015.

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