The Collapse Of The Mill Factory Collapsed Essay - 1556 Words

24 April 2013, over 1,100 factory workers died when the Rana Plaza factory collapsed. The day before the collapse workers noticed cracks had appeared on the third floor and the factory was closed for the afternoon. The night before the building collapsed the owner of the factory Rana went on the news declaring the building was safe despite reports from engineers, which warned against entering the building. The following morning the banks and other retail stores located on the bottom floor of the building were closed and only the garment factory levels were open. Garment workers who remained outside the factory who were scared to enter the building were told if they didn’t enter the building they would be fired and that they wouldn’t be able to get work anywhere else (McClearn, 2013). Police officials arrived at the factory and told those who were not compliant to enter the building. The building, which was only designed to be 5 floors high and originally intended as a retail center had three floors added illegally and was not structurally able to hold the weight of the heavy machines and thousands of workers. At 8:45 there was a power cut and the generators were turned on. The immense vibrating from the generator shook the already weakened structure causing the building to collapse. The overall disaster caused the death of over 1100 factory workers and severely injuring over 2000 more. The incident was the most deadly garment factory accident in the world this causedShow MoreRelatedThe Industrial Revolution Of Philadelphia1524 Words   |  7 PagesINTRODUCTION: April 8, 2012 was the Sunday that Easter was celebrated that year. This date will also be forever remembered as the day that Lieutenant Robert Neary and Firefighter Daniel Sweeney lost their lives at the Thomas Buck Hosiery Factory fire in Philadelphia, PA. Since William Penn first founded the city of Philadelphia in 1682, it has been an evolving and growing city, from a 17th centuryRead MoreBusiness Ethics : Bangladesh Textile Industry Disaster2546 Words   |  11 Pagesproject management by suggesting ideas, which they don’t want. †¢ Involvement in situation with conflict of interest. Bangladesh Textile Industry Collapse: The collapse of the Rana Plaza building is, till date considered the deadliest disaster in the history of the garment industry worldwide. At a 9 a.m. on Wednesday 24th April an eight-storey building collapsed in Savar, Dhaka. Within two minutes the rana plaza building was a huge mass of metal, machinery and dead bodies of all kinds of age group ofRead MoreThe First Signs Of Industrial Revolution1509 Words   |  7 Pageslonger would women take days to make one shirt. This enlarged the demand for cotton, thus, The Water Frame was created. After that the cotton was eventually manufactured at giant cotton mills. Now the economy that up until that point had been dependent on agriculture and small villages, now was one of factories and machinery. During this time many things were invented asides from The Spinning Jenny and The Water Frame. The water steam engine was also created by Thomas Newcomen. It should also beRead MoreThe Communist Manifesto By Karl Marx1364 Words   |  6 Pagesin England, which would lead him later to Karl Marx. Engels never had a college education due to the fact that his father sent him to clerk for three years in Bremen. In the 1840s, he met Marx in 1842, Engels was a manager at one of his father’s mills. This experience led to his first work, â€Å"The Condition of the Working Class in England.† It wasn’t until 1847 that Marx and Engels collaborated on the â€Å"Communist Manifesto.†(Britanica) The point of the Communist Manifesto was to present a way toRead MoreCase Law Nebosh1198 Words   |  5 Pagesperson the statute was intended to protect - The type of injury was one the statute was intended to protect - Case – Edwards Vs National Coal Board Relevance - Reasonably Practicable Details - Edwards slipped when a section of roadway collapsed - NCB agreed that the cost of *** up would have been prohibitive (was not justified) - NCB were found liable as cost of making safe was not great when compared to the risk Reasonably practicable - The quantum of risk should be applied in determiningRead MoreJustice Is The Standard Of True Justice1762 Words   |  8 Pagesfocus on the second principle. The second law proposes two secondary principles, one is the principle of difference, and the other is the principle of fair opportunity. Therefore, the second principle can be a good explanation of the problem of the factory in Bangladesh, the second principle is mainly using for the distribution of income property and the arrangements or reposition the social status of the different groups. In contrast to the first principle, the second law allows for some differencesRead MoreEssay on Weimar Hyperinflation2080 Words   |  9 Pagesinflationary boom, several basic industries had prospered, but there was a â€Å"severe depression† in the consumer goods industries as many consumers lost a majority of their purchasing power (Kosares). Near the end of the inflationary period, the economy collapsed. Retailers struggled to obtain goods, and most operated at a loss – the money they received was simply depreciating too rapidly. Farmers who had overinvested were left with unproductive machinery and equipment, and they stopped selling dairy andRead MoreThe Essential Questions5521 Words   |  23 Pagesemployment in the new mills and factories, but these were often under strict working conditions with long hours of labour dominated by a pace set by machines. However, harsh working conditions were prevalent long before the Industrial Revolution took place. Pre-industrial society was very static and often cruel—child labour, dirty living conditions and long working hours were just as prevalent before the Industrial Revolution Industrialisation led to the creation of the factory. Arguably the firstRead MoreHenry Ford Paper1781 Words   |  8 Pageswas forced with the decision of choosing between his job and automobiles by the Detroit Edison Company. Without hesitation Ford chose cars and in that same year Ford formed the Detroit Automobile Company, which collapsed after he had a disagreement with his financial helpers. After the collapse of the Detroit Automobile Company, Ford tried again in the unsuccessful Henry Ford Automobile Company. Ford only had none successful car venture and that was through his racing cars, about 999 were sold one drivenRead MoreEssay on How Marxs Ideas Were Formulated2649 Words   |  11 Pages(eg. Handmill) but this is an ongoing process and are constantly being developed as is seen with the creation of the steam mill, an invention that revolutionised society. The feudal system can only work on the basis of the lord and serf, that is the minority lord and a number of serfs, tied down to the land, with the steam mill however, we see a trend towards large factories that involve a number of concentrated labourers, a complete contradiction of the feudal way of life. This supports the notion

Major Milestone in Technology History †MyAssignmenthelp.com

Question: Discuss about the Major Milestone in Technology History. Answer: 3D Printing Technology: Major Milestone in Technology History In previous few decades, the technology has developed rapidly due to a number of major progress milestones. Technological advancements resulted in making peoples lives easier and help them achieve major milestones. Introduction of a major milestone technology changes the way things work and result in making peoples lives easier. This essay will discuss the 3D Printing technology as a major milestone in technology history. The 3D Printing technology is also known as Additive manufacturing which uses 3D printers to create new objects. The technology has the ability to change the world and making a number of traditional technologies obsolete (1). 3D Printing technology assists in enhancing the creation of complex objects or structures which were not feasible in the past. Although the 3D printers are still in developing stage and there is still time for them to become a household product, but, the technology has shown the potential to change the world completely. Most of the major corpor ations in different sectors are investing in 3D Printing technology for using it to improve their operations and generating a competitive advantage (2). This essay will analyse different key factors that assisted in the development of the 3D Printing technology. This essay will discuss the history of the technology and evaluate the motivation for the technology. Further, this essay will analyse the influence of 3D Printing technology on society and evaluate its future timeline. In the 3D Printing process, new objects and structures are formed by adding alter at a time. Generally, objects are created by subtracting materials; therefore, they are also called subtractive manufacturing. However, in 3D Printers, new objects can be created by adding layers of plastic. The technology was first developed in the 1980s, and it was called Rapid Prototyping (RP) technology. Charles Hull first filed the patent for the technology in 1986 who was the first person to invent 3D printer (3). Most of these printers were unable to create complex products at the time however they laid the foundation for modern-day 3D Printing technology. Along with Hull, many other experts also tried to make 3D printers which progress the 3D Printing technology. Other technologies which assisted in improve 3D Printing technology is digital cameras and sensors. In order to create an object in 3D printers, a 3D file of the object is required to be created using Computer Aided Design (CAD) softwar e (4). High definition cameras and sensors assist in creating an exact 3D picture of an object which can be created in a 3D printer. The traces of first development of 3D Printing technology go back to 1980s when it was called Rapid Prototyping (RP) technology. Charles Hull developed the first 3D printer in 1986, and he called the technology Stereolithography (5). Hull filed a patent for stereolithography fabrication system which added layers by curing photopolymers with ultraviolet light lasers. In 1998, a special application of plastic extrusion was created by S. Scott Crump for Stratasys Company which marketed its first Fused Deposition Modelling (FDM) machine in 1992. From 1999 to 2010, different innovations assisted in improving additive manufacturing technology and making it more advanced. During this decade, first ever 3D printed organ was developed which was a human bladder. After that, medical field scientists started using 3D Printing technology for improving healthcare system by creating human organs such as prosthetic leg, miniature kidney, and blood vessels. The technology became mainstreamed in 2011 when the cost of 3D printers started plummeting and their accuracy improved (6). Now, 3D printers became more user-friendly machines, and it became easier for people to use them through free software programs. The key motivation for the development of the 3D Printing technology was the demand of rapid prototyping. The level of accuracy achieved by a 3D printer outperformed the human capabilities. The technology made the process of creating highly complex products easier for individuals. Scientists understand the potential of the technology and how it can be substantially useful in fields such as technology, healthcare, manufacturing and others (7). The technology is able to achieve high accuracy while creating a product which cannot be achieved by any other modes of manufacturing. Scientists use the technology to create human organs which was a miracle at the time. The organs were created in 3D printers using human tissues which cannot otherwise be developed. It opened new possibilities in the medical field for organisations to save peoples lives. In the manufacturing industry, companies were interested in 3D printers because they assist in reducing their labour costs (8). Use of 3D printe rs also avoids wastage of raw materials which improves the overall manufacturing process. In the technology field, the technology was assisting companies in creating small microprocessors and chips with a high level of accuracy that cannot be achieved otherwise. The popularity of 3D Printing technology has a substantial impact on different industries, and it has changed different aspects of society. With the advancement of the technology, the prices of 3D printers have dropped making them more affordable for individuals to use. The technology has made home construction cheaper for individuals, and they use the technology to create small products for the home. The ability of 3D printers to create better body parts from prosthetic limbs to bone implants make peoples lives easier (9). 3D printers can make accurate organs much more quickly which can save thousands of lives. Additionally, the technology assists in making affordable prosthetics than compared to conventional one which helps them become popular. By using this technology, it has become easier to manufacture products in space which can improve space exploration. The technology can change the manufacturing industry because it can reduce labour costs, production time and wastage of mate rial. Furthermore, the technology is beneficial for the environment because it reduces wastage of material and assists in improving environmental protection (10). For example, companies are using this technology to create coral reefs for protecting and improving marine life (11). The technology has made the production of complex microprocessor and chips easier for companies which assist in creating highly advanced products. In previous few years, the 3D Printing technology has become more popular among the general public which creates new opportunities for the technology. However, only a few people use 3D printers to create objects, and there is still space for further advancement of the technology. The technology is more likely to become more affordable after its popularity in developing markets (12). On the material side, in next few years, vendors are going to put more emphasis on material development and people will be able to use new materials to create new 3D printed objects. Metal printing is likely to become more affordable, and it will change the manufacturing industry. Organisations such as General Electric, Boing, Ford, and Nike are using 3D printers to create small components of their products at high accuracy which cannot be achieved otherwise (13). Highly accurate parts reduce the risk of machinery malfunctions and errors, and it improves products safety. In the future, these corporations will be able to create whole products by using 3D printers. The technology will influence the education sector makes it easier for students to understand and gain knowledge by practically analysing and create prototypes (14). In conclusion, 3D Printing technology is becoming popular with the advancement of technology. The technology first developed in the 1980s when Charles Hull created first ever 3D printer in 1986. With the advancement in this field, organisations are using 3D Printing technology in medical, manufacturing, food and many other sectors. In technology become popular after 2011 when the prices of 3D printers started reducing which makes them more accessible to the general public. The key motivation for the development of 3D Printing technology is its ability to create complex objects with a high level of accuracy which cannot otherwise be achieved by any other medium of manufacturing. The 3D printers have changed society by making prosthetics affordable, creating human organs, complex microprocessors, and reducing material wastage. In the future, the 3D printing will become more accessible to the general public, and they will be able to use different materials for creating new objects and s tructures. It will influence manufacturing industry by reducing wastage of material and overall operating costs. The technology has the potential to change different industries and improve the lives of people. References Berman, B. (2012) 3-D printing: The new industrial revolution.Business horizons,55(2), pp.155-162. Wong, K.V. and Hernandez, A. (2012) A review of additive manufacturing.ISRN Mechanical Engineering,2012. Mueller, B. (2012) Additive manufacturing technologiesRapid prototyping to direct digital manufacturing.Assembly Automation,32(2). Wang, R., Paris, S. and Popovi?, J. (2011) 6D hands: markerless hand-tracking for computer aided design. InProceedings of the 24th annual ACM symposium on User interface software and technology(pp. 549-558). ACM. Vashishtha, V.K., Makade, R. and Mehla, N. (2011) Advancement of rapid prototyping in aerospace industry-a review.International Journal of Engineering Science and Technology,3(3), pp.2486-2493. Conner, B.P., Manogharan, G.P., Martof, A.N., Rodomsky, L.M., Rodomsky, C.M., Jordan, D.C. and Limperos, J.W. (2014) Making sense of 3-D printing: Creating a map of additive manufacturing products and services.Additive Manufacturing,1, pp.64-76. Wittbrodt, B.T., Glover, A.G., Laureto, J., Anzalone, G.C., Oppliger, D., Irwin, J.L. and Pearce, J.M. (2013) Life-cycle economic analysis of distributed manufacturing with open-source 3-D printers.Mechatronics,23(6), pp.713-726. Petrick, I.J. and Simpson, T.W. (2013) 3D printing disrupts manufacturing: how economies of one create new rules of competition.Research-Technology Management,56(6), pp.12-16. Ventola, C.L. (2014) Medical applications for 3D printing: current and projected uses.Pharmacy and Therapeutics,39(10), p.704. Cesaretti, G., Dini, E., De Kestelier, X., Colla, V. and Pambaguian, L. (2014) Building components for an outpost on the Lunar soil by means of a novel 3D printing technology.Acta Astronautica,93, pp.430-450. Parker, L. (2017) 3D-Printed Reefs Offer Hope in Coral Bleaching Crisis. [Online] National Geography. Available at: https://news.nationalgeographic.com/2017/03/3d-printed-reefs-coral-bleaching-climate/ [Accessed 29th March 2018]. Huang, S.H., Liu, P., Mokasdar, A. and Hou, L. (2013) Additive manufacturing and its societal impact: a literature review.The International Journal of Advanced Manufacturing Technology,67(5-8), pp.1191-1203. Vaezi, M., Seitz, H. and Yang, S. (2013) A review on 3D micro-additive manufacturing technologies.The International Journal of Advanced Manufacturing Technology,67(5-8), pp.1721-1754. Bogue, R. (2013) 3D printing: the dawn of a new era in manufacturing?.Assembly Automation,33(4), pp.307-311.