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新書推薦： 《 化妆品学原理 》 售價：NT$ 254.0 《 万千教育学前·与幼儿一起解决问题：捕捉幼儿园一日生活中的教育契机 》 售價：NT$ 214.0 《 爱你，是我做过最好的事 》 售價：NT$ 254.0 《 史铁生：听风八百遍，才知是人间（2） 》 售價：NT$ 254.0 《 量子网络的构建与应用 》 售價：NT$ 500.0 《 拍电影的热知识：126部影片里的创作技巧（全彩插图版） 》 售價：NT$ 500.0 《 大唐名城：长安风华冠天下 》 售價：NT$ 398.0 《 情绪传染（当代西方社会心理学名著译丛） 》 售價：NT$ 403.0

建議一齊購買： + NT$ 232 《 大学生创业与就业指导（21世纪通识教育系列教材；全国高校就业指导课程特色教材课题成果） 》 + NT$ 332 《 高等师范院校专业基础课教材：外国教育史 第2版 》 + NT$ 357 《 无土栽培教程（第2版） 》 + NT$ 605 《 妇产科学（第八版/本科临床/十二五规划教材） 》 內容簡介： 本书较全面、深入浅出地阐述了数控机床的编程技术，内容包括数控机床的工作原理，数控车床、数控铣床、加工中心等机床的手工编程方法；并介绍了常用数控车床、数控铣床、加工中心等机床的编程和操作；同时介绍了SIEMENS 802SC数控机床的结构、编程实例和操作；另外，对CADCAM交互式图形编程技术也作了简单介绍。 本书操作实例丰富，深入浅出，各章既有连贯性，又有一定的独立性，内容丰富，实用性强，并在每章后附有习题。本书可作为高等职业技术院校学生的专业教材和教学参考书，还可作为从事数控技术工作的工程技术人员的参考书。 目錄： 目 录 1 绪 论····································································································································································· 1 1.1 概 述·································································································································································· 1 1.2 数控机床的发展概况和分类·························································································································· 2 1.3 数控机床的基本工作原理和坐标系··········································································································· 10 1.4 数控机床的自由度········································································································································· 20 1.5 数控机床的应用范围和特点························································································································ 21 2 数控编程的基础知识········································································································································ 24 2.1 数控编程的内容和方法································································································································· 24 2.2 程序段格式和程序结构································································································································· 30 2.3 准备功能（G指令）和辅助功能（M指令）························································································· 33 2.4 典型数控加工程序编制································································································································· 46 2.5 数控加工过程仿真········································································································································· 57 3 数控车床加工程序设计典型实例··················································································································· 60 3.1 FANUC 0-TD0-MD数控系统操作············································································································· 60 3.2 机床操作面板介绍········································································································································· 66 3.3 轴类零件加工程序设计································································································································· 69 3.4 盘类零件加工程序设计································································································································· 74 3.5 数控车床加工综合实例································································································································· 79 4 数控铣床加工程序设计典型实例··················································································································· 84 4.1 数控铣床坐标系统········································································································································· 84 4.2 西门子系统数控铣床的常用指令··············································································································· 88 4.3 数控铣床加工综合实例······························································································································ 103 5 加工中心程序设计·········································································································································· 115 5.1 加工中心的特点与分类······························································································································ 115 5.2 加工中心的程序编制··································································································································· 117 5.3 加工中心的操作··········································································································································· 131 5.4 加工中心程序设计典型实例······················································································································ 139 6 典型计算机数控系统······································································································································ 156 6.1 概 述····························································································································································· 156 6.2 SIEMENS 802SC base line简介·············································································································· 160 6.3 SIEMENS 802SC base line数控系统的组成························································································ 161 6.4 SIEMENS 802SC base line编程实例····································································································· 166 6.5 SIEMENS 802SC base line机床操作····································································································· 175 7 基于CADCAM交互式图形编程的应用··································································································· 181 7.1 CADCAM技术介绍··································································································································· 181 7.2 CADCAM建模技术··································································································································· 191 7.3 **轨迹生成和后置处理·························································································································· 194 7.4 典型零件CADCAM应用实例················································································································· 205 7.5 FUNAC 0I车床仿真操作··························································································································· 215 参考文献·································································································································································· 238 內容試閱： 前 言 随着科学技术的飞速发展，机械制造技术发生了革命性的变化。传统的普通加工设备已难以适应市场对产品多样化的要求，难以适应市场竞争的高效率、高质量的要求。而以数控技术为核心的现代制造技术，以微电子技术为基础，将传统的机械制造技术与现代控制技术、计算机技术、传感检测技术、信息处理技术以及网络通信技术有机结合在一起，构成高度信息化、高度柔性化、高度自动化的制造系统。 数控技术是20世纪制造技术的重大成就之一，从20世纪70年代以后，计算机数控技术获得了突飞猛进的发展，数控机床和其他数控装备在实际生产中获得了越来越广泛的应用。同时，计算机数控技术的发展又极大地推动了计算机辅助设计及辅助制造（CADCAM）、柔性制造系统（FMS）和计算机集成制造技术（CIMS）的发展，成为先进制造技术的基础和重要组成部分。 数控技术已被世界各国列为优先发展的关键工业技术，成为当代国际间科技竞争的重点。数控技术对现代制造业的影响是多方面的和重大的，制造业是各种产业的支柱工业，数控技术和数控装备是制造工业现代化的重要基础，直接影响着一个国家的经济发展和综合国力，关系到一个国家的战略地位。发展数控技术和数控机床是当前制造工业技术改造、技术更新的必由之路。 为了适应培养数控技术人才需求短缺的形势，适应高职高专机电专业课程“数控技术”的教学需要，特编写了本书。 本书可作为高等职业技术院校学生的教材，也可供从事机电一体化技术、数控技术的相关人员参考。

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