运动控制技术在工业生产中占有非常重要的地位,该技术涉及了机械、自动化、计算机等技术领域,随着人工智能及工业互联网的发展,运动控制技术有着不可估量的发展空间。本文利用Visual Studio 2019开发软件,用C++语言程序实现平面篮球图的...运动控制技术在工业生产中占有非常重要的地位,该技术涉及了机械、自动化、计算机等技术领域,随着人工智能及工业互联网的发展,运动控制技术有着不可估量的发展空间。本文利用Visual Studio 2019开发软件,用C++语言程序实现平面篮球图的MFC界面设计以及运动轨迹的设定,通过固高公司生产的GTS-800-PV-PCIe运动控制器控制XYZ轴,实现平面篮球图的绘制任务。经测试,在运动控制平台上可以实现平面篮球图的绘制任务。展开更多
A simple method to fabricate one-dimensional(1-D) and two-dimensional(2-D) ordered micro- and nano-scale patterns is developed based on the original masters from optical discs, using nanoimprint technology and soft st...A simple method to fabricate one-dimensional(1-D) and two-dimensional(2-D) ordered micro- and nano-scale patterns is developed based on the original masters from optical discs, using nanoimprint technology and soft stamps. Polydimethylsiloxane(PDMS) was used to replicate the negative image of the 1-D grating pattern on the masters of CD-R, DVD-R and BD-R optical discs, respectively, and then the 1-D pattern on one of the PDMS stamps was transferred to a blank polycarbonate(PC) substrate by nanoimprint. The 2-D ordered patterns were fabricated by the second imprinting using another PDMS stamp. Different 2-D periodic patterns were obtained depending on the PDMS stamps and the angle between the two times of imprints. This method may provide a way for the fabrication of complex 2-D patterns using simple 1-D masters.展开更多
文摘运动控制技术在工业生产中占有非常重要的地位,该技术涉及了机械、自动化、计算机等技术领域,随着人工智能及工业互联网的发展,运动控制技术有着不可估量的发展空间。本文利用Visual Studio 2019开发软件,用C++语言程序实现平面篮球图的MFC界面设计以及运动轨迹的设定,通过固高公司生产的GTS-800-PV-PCIe运动控制器控制XYZ轴,实现平面篮球图的绘制任务。经测试,在运动控制平台上可以实现平面篮球图的绘制任务。
基金supported by the National Natural Science Foundation of China(Nos.11504259,21575098 and 21505098)the Shanxi International Cooperation Project(No.2015081019)+2 种基金the Shanxi Scholarship Council(No.2013-038)the Scientific and Technological Innovation Programs of Higher Education Institutions in Shanxi(No.2015123)the Scientific Research Starting Foundation from Taiyuan University of Technology(No.tyut-rc201162a)
文摘A simple method to fabricate one-dimensional(1-D) and two-dimensional(2-D) ordered micro- and nano-scale patterns is developed based on the original masters from optical discs, using nanoimprint technology and soft stamps. Polydimethylsiloxane(PDMS) was used to replicate the negative image of the 1-D grating pattern on the masters of CD-R, DVD-R and BD-R optical discs, respectively, and then the 1-D pattern on one of the PDMS stamps was transferred to a blank polycarbonate(PC) substrate by nanoimprint. The 2-D ordered patterns were fabricated by the second imprinting using another PDMS stamp. Different 2-D periodic patterns were obtained depending on the PDMS stamps and the angle between the two times of imprints. This method may provide a way for the fabrication of complex 2-D patterns using simple 1-D masters.