工程图纸/蓝图的阅读, 常用符号的解释, 正射投影, 几何结构, 尺寸标注, 和切片. 包括计算机辅助制图(CAD)的一般方法. Focus on subject matter relevant to 机床技术 and Industrial Technology applications and local industry requirements. 旨在提供图形通信方法的工作知识.

几何尺寸和公差(GD)&T) is the symbolic way of showing specific tolerances on engineering and manufacturing drawings. This course will teach the Interpretation of the technical standards governed by The American Society of Mechanical Engineers (ASME) Y14.5-2009. 说明设计中使用的标准, 使用多个基准进行加工和检验操作, 符号, 特征控制框架, 及其他GD&T规范.

机床技术的延续. 有关高级车床和铣床操作的理论和实验室实践, 齿轮加工, 钢材及热处理, 基本的平面和外圆磨削, 并介绍了公制测量. 强调正确的机床设置和项目工作的质量.

介绍与精密测量工具相关的机床操作, 布局方法, 螺纹, 钳工, 钻压, 带锯, 光学和人工检测技术, 基本的车床和立式铣削操作, 以及对制造业就业机会的评估. 强调安全、正确地使用手动和机床.

设计, 发展, and fabrication of selected projects for the machine tool technology major to develop special entry-level job skills.

机床技术的延续. 选定项目，提供工作更新所需的某些专业技能, 工作进步, 或者技能专业化.

介绍夹具等生产型工装的设计和制造, 固定装置, 以及工业上应用的量规. 强调工具设计实践, 制造技术, 设置程序, 以及生产零件的检验.

工具间磨, 精密测量, 精密镗, 钢和热处理, 硬质合金刀具, 工作评估, 基本夹具, 夹具, 模具, 模具制造理论.

介绍机床车间实践，探索机床技术领域. 包括测量工具, 钳工, 螺纹, 钻压, 车床, 和立式铣床操作. 安全、正确使用机床.

Introduction to programming and operating three axis computer numerical controlled drilling and 铣 machines. 说明包括标准的X-Y-Z笛卡尔坐标系, 手动和自动铣床操作, 绝对定位和增量定位, 阅读和编写g代码, 基本和中间三轴钻铣零件的加工.

This course offers students advanced study in programming computer numerical control (CNC) mills. Students learn how to write programs that utilize 4th and 5th axis rotations in longhand format, 利用自动化的工具和夹具探测循环, 使用四轴和五轴数控刀具安装和操作零件, and how to use Mastercam computer aided manufacturing (CAM) software to safely and effective program complex parts using high speed machining, 浮出水面, 第四和第五轴的操作. This course prepares students to work confidently in the emerging technologies that are defining the new standards of modern machining.

Basic programming and operating of two-axis and live tooling computer numerical controlled 车床. 指令包括车床编程使用恒定的表面速度, 内外车削, 活工具钻井, 攻丝, 铣, 分轴操作, 并出具实验室“首件”检验报告.

高级学生指导计算机数控(CNC)编程和操作. Students are challenged to utilize high precision work holding and rapid machining to create parts that exceed industry standards of precision and speed. Creative problem solving and design skills are stressed as students navigate unique problems and materials. 项目将包括高速加工，3D堆焊和多台机器设置.

学生导向设计, 发展, and fabrication of selected Numerical Control projects for the machine tool technology major to develop special entry-level job skills. 学生将制定自己的手术计划, 加载自己的工具, 并对机器进行编程，以创建定制零件, 固定装置和组件. This course connects software skills with machine operation and inspection to offer the student a total immersion into the contemporary practices of machining.

The fundamentals of the latest version of Mastercam CAD/CAM manufacturing software as it pertains to machine 商店 use and requirements. Instruction includes theory and laboratory practice on the use of the Mastercam software environment to create 2 1/2 and 3 axis, 车床, 和电火花线切割刀具路径. 说明书包括零件图, 尺寸标注, 导入电子文件(DXF), IGES, Sldprt, 和Dwg), 车床和铣刀轨迹结构, 几何和刀具轨迹转换, 刀具轨迹编辑, 后置处理器.

This course will introduce you to the fundamentals of Solidworks design software as it pertains to machine 商店 use and requirements. 教学内容包括:创建基本实体模型, 程序集, 和图纸; managing Solidworks file types for export to 3D printers, 激光切割机, or CAM software; part configurations; 模具 body creation; 表面; jig and 固定装置; and more. This course will also introduce students to the theory and operation of rapid prototyping tools such as 3D printers, 激光切割机, 和3D扫描仪.

Build upon previous CAD and CAM experience to create projects using advanced toolpaths and 3D models, 程序集, 和图纸. 设计夹具的速度和易于操作. 试验刀具和刀片，以优化质量，精度和周期时间. 与行业合作伙伴协调，实时应对加工领域的挑战. Learn advanced Mastercam multiaxis toolpaths for vertical 铣 machines and advanced Solidworks skills working with solids, 表面, 多体, 和配置. 获得工具方面的专业技能, 高级机器功能, 夹具设计, 多旋转轴的工件夹持技术和刀具轨迹应用.