3D Printing Mars Mission

Question: Discuss about the3D Printingfor Mars Mission. Answer: 3D printing has rapidly evolved the aviation, safety and automotive industries and has created a revolution on cost, time and result of production to a maximum level. I am going to present you examples that will highlight the potential of 3D printing and define its market demand. As your esteemed organization uses the 3D printing for developing delicate engineering structure and complex geometric modules for mechanical and automotive industry, I would like to provide you few cases that outline the market opportunity of 3D printing. NASA uses CATIA to develop the structural components of the vehicle prototype that is targeted to go for a Mars mission. The vehicle prototype is the size of a Hummer containing a pressurized chamber. I am not asking you to build a rocket ship category vehicle but if your esteemed organization develops 3D printing technology to produce bicycle frames it would be a great success as it will reduce manpower and increased rate of production and you can target the bicycle manufacturing firms. Advanced Contrast Imaging System Technology is another manufacturing organization of injections that are used for studying human body. Their new product EmpowerCTA injection system contains around 35 3D printed modules. Thus if your organization manufactures similar complex components for other medical units, it might create a sustainable market. Rietveld Architects LLP., another renowned organization creates 3D printing models to brief their customers regarding their products. It is an excellent opportunity as engineering civil drawings can be easily drafted using AutoCAD, analyzed using STAAD.pro and finally converted to CATIA and printed easily. Thus, the organization can make profit by selling those architectural miniature-building prototypes to contractors and construction firms. Robert Seuffer GmbH and Co. KG, a producer of electronic components uses 3D printing for producing switches, appliances, vehicles and automobiles parts. Thus, I suggest to tap into the potential market and create a simplified software so that instead of CATIA, common people are able to create their design and use it when required such as fix a broken dishwasher or wheels when required. I also recommend using 3D printing to repair damaged tissues due to injury and accidents in which the delicate tissues are ruptured and can only be replaced by fiber material of the 3D printer. I also recommend using 3D printing for replacing broken tissues as the dimensions are easy to adjust and can be accurately detailed using computer software. Bone scaffolds when printed using 3D printing will also allow replicating models of ears, nose, lips or any other body parts that can be used as precise cosmetic surgery replacement using coated cells that are fully functional; to multiply and grow. Thus, the bottom line is if your esteemed organization uses the 3D printing technology into medical, engineering, automotive and healthcare sectors, you can tap into a sustainable and potential market of extreme profit. I also recommend using special encrypted software and a different materials rather than the waterproof material used by 3D printer so that the technology is not replicated. Moreover, it should also be kept in mind so that common people are not allowed to use the software for commercial purpose.