加拿大基辅大学论文代写:3D打印技术
从数字形式的数据打印3D物体的技术是由Charles Hull在1984年首次开发的。该技术最初被称为立体光刻术,并且关于该技术的专利已经在1986年获得。虽然立体光刻的系统在20世纪80年代末已经获得普及,但是已经引入了许多具有类似特征的技术,如选择性激光的熔融沉积和烧结的建模(Diaz 2013)。
在1993年,该技术已被马萨诸塞州的理工学院授予3维打印技术的专利,可以被认为与2D打印机下使用的喷墨技术相似。 1996年,Z公司推出了三个主要产品,Z公司的Z402,3D的系统的Actua 2100和Stratasys的Genisys(Freedman 2013)。在2005年,Z Corp推出了一款突破性的产品,Z Corp被命名为Spectrum Z510,这是第一款具有高清晰度的3D打印机。 3D打印技术的另一个重大突破是在2006年开始实施的开源项目,即Reprap。这一突破性产品的目标是专注于自动复制3D打印机的开发(Felix 2010)。
从数字形式的数据打印3D物体的技术是由Charles Hull在1984年首次开发的。该技术最初被称为立体光刻术,并且关于该技术的专利已经在1986年获得。虽然立体光刻的系统在20世纪80年代末已经获得普及,但是已经引入了许多具有类似特征的技术,如选择性激光的熔融沉积和烧结的建模(Diaz 2013)。
在1993年,该技术已被马萨诸塞州的理工学院授予3维打印技术的专利,可以被认为与2D打印机下使用的喷墨技术相似。 1996年,Z公司推出了三个主要产品,Z公司的Z402,3D的系统的Actua 2100和Stratasys的Genisys(Freedman 2013)。在2005年,Z Corp推出了一款突破性的产品,Z Corp被命名为Spectrum Z510,这是第一款具有高清晰度的3D打印机。 3D打印技术的另一个重大突破是在2006年开始实施的开源项目,即Reprap。这一突破性产品的目标是专注于自动复制3D打印机的开发(Felix 2010)。
加拿大基辅大学论文代写:3D打印技术
The technology related to printing physical objects of 3D from the data of digital form had been developed first in the year 1984 by Charles Hull. The technique had been named initially as Stereo Lithography and the patent with respect to the technique had been obtained in the year 1986. While the systems of Stereo lithography had achieved popularity by the end of the years 1980s, there had been introduction of a number of technologies with similar features like the modelling of fused deposition and sintering of selective laser (Diaz 2013).
In the year 1993, the technology had been patented by the Institute of Technology in Massachusetts under the techniques of 3 Dimensional Printing that can be considered similar to the technology of inkjet used under 2D Printers. In the year 1996, there had been introduction of three main products that are Z402 from the Z Corporation, Actua 2100 from the systems of 3D, and Genisys from Stratasys (Freedman 2013). In the year 2005, there had been a launch of breakthrough product by Z Corp that had been named as Spectrum Z510 that had been the first 3D Printer with colour of high definition. Another significant breakthrough within the technology of 3D printing took place in the year of 2006 with the project of open source had been initiated, namely Reprap. The aim of this breakthrough product was focused on the development of 3D printer for self- replication (Felix 2010).
The technology related to printing physical objects of 3D from the data of digital form had been developed first in the year 1984 by Charles Hull. The technique had been named initially as Stereo Lithography and the patent with respect to the technique had been obtained in the year 1986. While the systems of Stereo lithography had achieved popularity by the end of the years 1980s, there had been introduction of a number of technologies with similar features like the modelling of fused deposition and sintering of selective laser (Diaz 2013).
In the year 1993, the technology had been patented by the Institute of Technology in Massachusetts under the techniques of 3 Dimensional Printing that can be considered similar to the technology of inkjet used under 2D Printers. In the year 1996, there had been introduction of three main products that are Z402 from the Z Corporation, Actua 2100 from the systems of 3D, and Genisys from Stratasys (Freedman 2013). In the year 2005, there had been a launch of breakthrough product by Z Corp that had been named as Spectrum Z510 that had been the first 3D Printer with colour of high definition. Another significant breakthrough within the technology of 3D printing took place in the year of 2006 with the project of open source had been initiated, namely Reprap. The aim of this breakthrough product was focused on the development of 3D printer for self- replication (Felix 2010).
