3D Printing Technology
Discuss about the Professional skills for Information and Communication Technology.
The current development of 3D printing technology in society is engaged with the limit to help people by through doing tasks. Present report bargains the defining 3D printing technology and its current usage. In addition, scope for 3D printing technology in organziation is accomplished in the study. In addition, in view of the discoveries, how 3D printing technology can be consolidated into activity of the business is portrayed in the present report. As the piece of investigation, potential focal points and burdens are talked about in the report.
The Chief Executive Officer of The organization3D printing technology likes to explore the way toward making simple through creating key empowering agent to accomplish focused advantages. The organization is additionally concentrating on facilitate enhancement over up and coming five years and utilizing ICT as one of the center capabilities. The specific arrangement of the organization is to use 3D printing technology including with increasing of the work of the organization inside Australia alongside Asian area. In this point of view, CEO of the organization is occupied with the way toward utilizing the usage of 3D printing technology as a key technology that can be considered as one of the parts of growing the procedure. As the system has results in both positive and negative viewpoints in business points of view, it is expected to research on business methodology that has been described the report.
Xing, Zheng and Duan (2015) stated that 3D printing or additive manufacturing is a main process to develop three-dimensional solid objects from a digital file. Hence, creating a 3D printed object is produced using additive process. In additive manufacturing, an object is developed by laying down successive layers of the particular materials until the particular layers. However, every layer is seen as think sliced and horizontal cross section of the object. Moreover, 3D printing is opposite method of subtractive manufacturing procedure. It is a hollowing part of metal and plastic for milling machine (McMenamin et al. 2014). The technology enables generating complex part of milling machine. It uses less material than conventional method of manufacturing. Hence, it is important to select right approach that can be helpful for the organization for the organization and use 3D printing technology in order to gain competitive advantages.
3D printing technology starts with development of 3D model in computer. The digital design for example is created from the ground with 3D modeling software and the data produced with 3D scanner. Thus, with the help of 3D scanner, a digital copy of the object can be created. At current days, 3D modeling software comes with several forms. There is industrial grade software, which costs much a year per license (McMenamin et al. 2014). On the other hand, there are software applications on the market, which can cater to transportation, designing furniture, transportation among others. Hence, the amount of selection can be overwhelming. It can be recommended that starting with Tinkercad. It is available free as well as works in the browsers that support WebGL, for an example, Google Chrome. They provide beginner lesions as well as developed in the options in order to get the object printed through several 3D print services.
Use and Examples of 3D Printing Technology
The 3D printing industry it is exceed that $ 21 billion all over the world revenue by 2020. 3D printing technology is usually destined transforming majority of the industry and makes change the particular (Lee et al. 2016). People have opinions that 3D printing can be separated into metal, fabrics as well as bio and entire host of the industries.
AusRAIL is considered as one of the vital meeting places where 3D printing has application in manufacturing. Use of 3D printer element is without going through normal procedure of manufacturing. The implications of emerging technologies like 3D printing on industrial manufacturing market are debated. Some of the experts in the particular industry feel that it is highly disruptive. Forecasting project important development in the industry over the years is stated by website (McMenamin et al. 2014). The 3D printing industry is generally expected changing every industry shares disrupting conventional manufacturing procedure. As the market increases along with the competitors in the traditional markets, the prototypes for the new products will become important and considered as less expensive and risky to fabricate.
The emerging technology has an important role that helps to improve the products and become less expensive as well as less risky to fabricate. Product development as well as competitive environment is considered as two potential implications. The emerging technology is likely to have important impact on the process of doing business by manufacturers. 3D printing technology has potential making the process of manufacturing options infinite as well as extremely precise. 3D printing technology has potential in making the manufacturing process options infinite as well as extremely precise.
In healthcare market, various factors influence global 3D printing like advancement of technology as well as enhancement in healthcare infrastructure. However, increase in the percentage of aging population as well as investment in research and development sector. Implants or prostheses are 3D printed for user body in specific. It is important to optimize that the work for the products need to be contrary and better known cases of personalized medicine. 3D applications in medicine sector are increasing. It consists of customized implants as well as prosthetics. In healthcare market, 3D printing has an important role to be considered.
In 2017, Materialise has reported that increased revenues of software, medical as well as manufacturing industry. (Cesaretti et al. 2014). CEOs can view 3D printing as an advantage. It is expected that 72% rise in spending for 2018 as well as in spending 55% expect in 2018. However, metal printing is climbing. It is expected that there is massive amount of research and development putted investing Google as well as General Electronic are investing in several technologies over the year.
Applications of 3D printing technology consist of rapid prototyping and architectural scale models as well as maquttes. In addition, 3D printed prosthetics as well as movie props are included in this (Jové et al. 2017). On the other hand, reconstruction of bones as well as body parts in the forensic pathology as well as reconstruction of heavily changed evidence that is acquired from the investigations if crime incidents. Education is one of the major fields for applying 3D printing technology (Radenkovic et al. 2016). The organizations undertake programs in order to promote the business. The programs can serve a cheap for the schools in order to make 3D printers available for using in the classes.
3D printing is the heart of major shift in the particular way in business, educational institutions as well as individuals (McMenamin et al. 2014). The physical as well as digital worlds are converging where technology enabling disruption as well as all these things has an important role in this. Thus, 3D printing is the heart of major shift in the business, educational institutions as well as individuals. It is required to check up s the statements regarding industrial revolution of industry. The Appliance’ rapid prototyping center is one of the examples of it. Personalization is the hallmarks of 3D printing, which may retailers overlook. In addition, they use service provider generating a stock without personalization on demand.
(Miko?ajewska et al. 2014). It allows the organization showing that the 3D printers can achieve in education. Thus, specific organizations provide plans to the educational institutions, teaching kids regarding the process of using them. It is vital as several schools that may not include staffs with abundant experience in the particular field.
There are several educational organizations. The project is considered as collaborative design. Here, the students can design the types of projects, guide of teachers through the particular research (Moon et al., 2014). In addition, the programs provide more certain goal as well as level of emphasize that daily class does not have.
In prototyping, several programs of universities have turned to printers. In addition, there are specializations in the process of additive manufacturing, an individual can attain through important architecture and industrial manufacturing process for industrial design. 3D printing is used for the process of rapid manufacturing (Choi & Kim, 2015). The prototypes are required for the user products.
There are several scopes of using 3D printing technology. In aviation industry, the use of 3D printing technology has several forms. Thus, it is estimated that potential of the printed parts as well as airplanes are estimated in airplane (Youssef et al., 2015). On the other hand, H2000 utilizes an infinite developed mechanism. Here, 3D printing is helpful for the designers looking to think again that lightweight aircrafts with achieving better aerodynamics.
The researchers are working on the particular ways for making the materials accessible. A concept of turning extra soil into the printable parts is described in the present report. The printers can lead to decreasing the amount of constructional materials as well as equipments essential for making a lunar mission (McMenamin et al. 2014). The architects are considered as the adopters of 3D printing technology. The architects require presenting work like physical scale model. In addition, 3D printers can assist to reduce manpower as well as time, when it is visualizing the design for the customers.
The organizations like Steelcase are searching into printing furniture along with the techniques that assists to develop the technique. The printers can allow the materials to be reused properly. 3D printers help to develop trinkets as well as tiny add-ons for daily lives. In the field of jewellery printing, it is one of the best examples lied in it. Printers such as Solidscape S300 are ideal in order to create wax molds as it utilizes generating jewellery (Ventola, 2014). The medical utilization of 3D printing in involving extreme rapid pace as specialists to begin the use of 3D printing in advanced ways, However, quality of care by implanting 3D printing are assisting in orthopaedic surgery.
The 3D printing technology through biotech organizations as well as academia to the possible utilization of inkjet techniques are also the use of bio printing. In addition, dentists with 3D printed products in rapid pace. It also allows developing the splints. On the other hand, additive manufacturing can be invaded food industry. The hotels such as Food ink as well as Melisse utilize the process unique. 3D printing allows the different types of food that helps to make shape-change and make transparent pasta, which are available at the store. 3D printing is one of the procedures that makes periphery of using in fashion world. The aspiring designers having long type in order to leverage its potential use can get potential advantages in business.
Although 3D printing technology is considered as one of new technologies, the technology can be one of the leading technologies in future. There are some methods to use the materials in order to extrude the layers (West et al., 2018). Counter crafting is one of the fields where 3D printing technology can be used. In addition, it is important to focus on the scenario that can assist the organizations to improve the business process. Selective laser sintering utilizes high power laser to make fuse of the small practices of plastic, glass powders and ceramic into mass that includes the powered material. On the other hand, direct metal laser sintering is one of the procedures that become a support structure for the particular object. It is developed as well as patented.
Thus, in stereolithography will be one of the major fields for using 3D printing method, which can be utilized in order to implement the projects. It engages the printing of particular objects. The concept as well as application of the method is required to involve in the pattern. The printing techniques need computer-aid design file in order to process the object. The file includes data regarding the dimensional representation of the object (McMenamin et al. 2014). CAD file needs to be converted into the particular format by which a printing machine can be understood. It is considered as Stereolithagraphy Tessellation Language, which is generally used for the process. In addition, the entire procedure includes consequent printing of the layer by layer. The printing machine utilization needs the information in each layer (Zhang et al. 2015). The procedure of printing consists of various steps. It usually starts from creating 3D program. There are special cases of software procedure of CAD model as well as produces the STL file. It includes information for every layer included in the process.
Conclusion
From the above study, it concludes that 3D printing can be useful for the research purposes. Use of titanium with steel has made it possible to use 3D printing on the metal parts. The industries with proper assembly are not required in order to make the products for commercial manufacturing as 3D printing can develop it. Several distinctive products can be printed utilizing single 3D printer. The 3D printing has enhanced innovation process. In addition, the printing is repeated, as the design is considered as perfect. The model of 3D printing is fast and affordable. Education is one of the fields where 3D printing technology can be used, In addition, 3D printing does not require a complicated program to be installed in the process. The prototypes are printed as well as receive feedback easily. The cycle of printing is repeated until the particular design is considered as perfect. Moreover, communication could be enhanced for 3D printing. The activities can be carried out in the classes that become more interactive as well as simpler way. Finally, the significance of 3D printing is not limited that is mentioned above. There are still future opportunities that are required to find out.
As additive manufacturing is the combination of cloud computing that is decentralized as well as geographically independent in the process-distributed production, it is required to focus on 3D printing technology. Cloud-based additive manufacturing can be referred to service oriented model. Thus, networked manufacturing model can be helpful for the process. The organizations have created several services where customers use the software as well as order resulting the particular items as 3D printed unique objects. It allows the customers creating custom cases for cell phones. Hence, use of 3D printing need to be more customized in the organizations. In addition, 3D printing technology can be used in rapid manufacturing process. It helps to introduce the materials, which are appropriate for final manufacturing process. Rapid manufacturing is considered as the new method of manufacturing as well as several procedures remains as unproven.
References
Xing, J. F., Zheng, M. L., & Duan, X. M. (2015). Two-photon polymerization microfabrication of hydrogels: an advanced 3D printing technology for tissue engineering and drug delivery. Chemical Society Reviews, 44(15), 5031-5039.
(https://pubs.rsc.org/-/content/articlehtml/2015/cs/c5cs00278h)
McMenamin, P. G., Quayle, M. R., McHenry, C. R., & Adams, J. W. (2014). The production of anatomical teaching resources using three?dimensional (3D) printing technology. Anatomical sciences education, 7(6), 479-486.
(https://onlinelibrary.wiley.com/doi/10.1002/ase.1475/full)
Lee, J. Y., Tan, W. S., An, J., Chua, C. K., Tang, C. Y., Fane, A. G., & Chong, T. H. (2016). The potential to enhance membrane module design with 3D printing technology. Journal of Membrane Science, 499, 480-490.
(https://www.sciencedirect.com/science/article/pii/S0376738815303082)
Cesaretti, G., Dini, E., De Kestelier, X., Colla, V., & Pambaguian, L. (2014). Building components for an outpost on the Lunar soil by means of a novel 3D printing technology. Acta Astronautica, 93, 430-450.
(https://www.sciencedirect.com/science/article/pii/S0094576513002889)
Jové, P., Verdum, M., Sánchez, C., Castro, J., & Lladó, J. (2017). Revaluation of Catalan Low Quality Cork as Feedstock for the Additive 3D Printing Technology. Materials Research Proceedings, 3.
(https://www.mrforum.com/product/9781945291418-2/)
Radenkovic, D., Solouk, A., & Seifalian, A. (2016). Personalized development of human organs using 3D printing technology. Medical hypotheses, 87, 30-33.
(https://www.medical-hypotheses.com/article/S0306-9877(15)00471-5/abstract)
Miko?ajewska, E., Macko, M., Ziarnecki, ?., Sta?czak, S., Kawalec, P., & Miko?ajewski, D. (2014). 3D printing technologies in rehabilitation engineering.
(https://repozytorium.ukw.edu.pl/handle/item/1300)
Moon, S. K., Tan, Y. E., Hwang, J., & Yoon, Y. J. (2014). Application of 3D printing technology for designing light-weight unmanned aerial vehicle wing structures. International Journal of Precision Engineering and Manufacturing-Green Technology, 1(3), 223-228.
(https://link.springer.com/article/10.1007/s40684-014-0028-x)
Choi, J. W., & Kim, N. (2015). Clinical application of three-dimensional printing technology in craniofacial plastic surgery. Archives of plastic surgery, 42(3), 267.
(https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4439584/)
Youssef, R. F., Spradling, K., Yoon, R., Dolan, B., Chamberlin, J., Okhunov, Z., … & Landman, J. (2015). Applications of three?dimensional printing technology in urological practice. BJU international, 116(5), 697-702.
(https://onlinelibrary.wiley.com/doi/10.1111/bju.13183/full)
Ventola, C. L. (2014). Medical applications for 3D printing: current and projected uses. Pharmacy and Therapeutics, 39(10), 704.
(https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4189697/)
West, L., Ables, F., Sharma, J. B., & Sileshi, R. (2018). Integrating 3D Printing Technology into Arts, Science, and Engineering Subjects.
(https://digitalcommons.northgeorgia.edu/ngresearchconf/2018/Art_Music/1/)
Zhang, B., Linnér, P., Karnfelt, C., Tarn, P. L., Södervall, U., & Zirath, H. (2015, December). Attempt of the metallic 3D printing technology for millimeter-wave antenna implementations. In Microwave Conference (APMC), 2015 Asia-Pacific (Vol. 2, pp. 1-3). IEEE.
(https://ieeexplore.ieee.org/abstract/document/7413011/)
Order an Essay Now & Get These Features For Free:
Turnitin Report
Formatting
Title Page
Citation
Outline
