25.040.20;35.240.50 标准查询与下载

NF E67-004:2016 叠层制造文件格式(AMF)版本1.2的规范

Specification for additive manufacturing file format (AMF) Version 1.2

BS ISO/ASTM 52915:2016 叠层制造文件格式(AMF) 版本1.2的规范

Specification for Additive Manufacturing File Format (AMF) Version 1.2

ISO/ASTM 52915:2016 叠层制造文件格式(AMF) 版本1.1的规范

Specification for Additive Manufacturing File Format (AMF) Version 1.2

ISO/ASTM 52915:2013 添加剂制造业文件格式(AMF)版本1.1的标准规格

This specification describes a framework for an interchange format to address the current and future needs of additive manufacturing technology. For the last three decades,the STL file format has been the industry standard for transferring information between design programs and additive manufacturing equipment. An STL file contains information only about a surface mesh and has no provisions for representing color, texture, material, substructure, and other properties of the fabricated target object. As additive manufacturing technology is quickly evolving from producing primarily single-material, homogenous shapes to producing multimaterial geometries in full color with functionally graded materials and microstructures, there is a growing need for a standard interchange file format that can support these features.

Standard specification for additive manufacturing file format (AMF) Version 1.1

ISO 14649-14:2013 自动化系统和集成 物理设备控制 电脑数值控制用数据模型 第14部分 水槽电火花加工过程数据(水槽-EDM)

This part of ISO 14649 specifies the technology-specific data element needed as process data for sinkEDM. Together with the general process data described in ISO 14649-10, it describes the interface between computerized numerical controller and the programming system (i.e. CAM system or shopfloor programming system) for sink-EDM. It can be used for sink-EDM operations on this kind of machine. The scope of this part of ISO 14649 does not include tools for any other technologies (e.g. turning, grinding). Tools for these technologies are described in other parts of ISO 14649.

Automation systems and integration - Physical device control - Data model for computerized numerical controllers - Part 14: Process data for sink electrical discharge machining (sink-EDM)

ISO 14649-13:2013 自动化系统和集成 物理设备控制 电脑数值控制用数据模型 第13部分 电线电火花加工用过程数据(电线-EDM)

This part of ISO 14649 specifies the technology-specific data element needed as process data for wireEDM. Together with the general process data described in ISO 14649-10, it describes the interface between computerized numerical controller and the programming system (i.e. CAM system or shop-floor programming system) for wire-EDM. It can be used for wire-EDM operations on this kind of machine. The scope of this part of ISO 14649 does not include tools for any other technologies (e.g. turning, grinding). Tools for these technologies are described in other parts of ISO 14649.

Automation systems and integration - Physical device control - Data model for computerized numerical controllers - Part 13: Process data for wire electrical discharge machining (wire-EDM)

ISO 14649-12:2005 工业自动化系统和集成.机械装置控制.计算机数控器用数据模型.第12部分:车削用过程数据

GB／T 1 9903的本部分规定了车削用工艺数据所需的专用数据元素。它与GB／T 1 9903．10中描述的通用工艺数据一起，描述了车削用计算机数值控制器和编程系统(例如：cAM系统或车间级编程系 统)之间的接口。它可用于各式机床的车削操作，包括车床和车削中心。在本部分巾，涵盖了传统车削加工的特征和操作数据模型，包括仅有X轴和Z轴的运动。对于包含c轴的复杂加T的特征和操作将 在以后的部分或在单独的文件中涉及。同样，GB／T 19903的本部分也不包括像铣削、磨削、轮廓切削或者放电加工那样的其他工艺。这些工艺将会在GB／T 19903系列的其他部分描述。 本部分描述的车削模型主要内容，是定义代表车削操作的加工特征和工艺过程的专用工艺数据类型。这个模型不包括表示方法、可执行对象和所有通用工艺的基本类型。具体信息参见GB／T 16656 系列标准的基本原理和GB／T 19903．10。加工数据的描述使用ISO 10303—1l：2004定义的EXPRESS语言，数据编码使用GB／T 16656．21—2008。

Industrial automation systems and integration - Physical device control - Data model for computerized numerical controllers - Part 12: Process data for turning

JIS B 6315-2:2003 机械的数字控制.程序格式和地址字定义.第2部分:预置功能 G 和通用多功能 M 的编码

この規格は，機械の数値制御で用いられるプログラムフオーマットにおける準備機能Gのコード及び補助機能Mのコードについて規定する。

Numerical control of machines -- Program format and definition of address words -- Part 2: Coding of preparatory functions G and universal miscellaneous functions M

ISO 4343:2000 工业自动化系统 机床数字控制 数控(NC)处理程序输出 后置处理指令

This International Standard defines the elements of a set of post processor statements to be used in numerical control software. These statements are encoded on 2 000 class and 20 000 class CLDATA records or their equivalent. Each processor using one of the ISO numerical control programming languages shall be capable of producing post processor command type CLDATA records as defined in this International Standard. Each post processor shall be capable of using the post processor command type CLDATA records defined in this international Standard as input. This International Standard does not prescribe a) the mechanism by which the statements are processed; b) the medium on which the input language statements are recorded; c) the medium and format of output machine control data; d) the order of statements within a part program.

Industrial automation systems - Numerical control of machines - NC processor output; Post processor commands

ISO 3592:2000 工业自动化系统 机床数字控制 数控(NC)处理器输出:文件结构和语言格式

This International Standard defines a file structure format and a language format for the representation of CLDATA on physical media. The CLDATA reference language (RL) is used for the machining of parts. It provides for the control of technologi-cal functions and movement at the numerical control ma-chine. Each processor using one of the numerical control pro-gramming languages shall be capable of producing CLDATA as defined in this International Standard. Each post processor shall be capable of using the CLDATA defined in this International Standard as input. The RL has been developed primarily for numerically controlled machine tools.

Industial automation systems - Numerical control of machines - NC processor output; File structure and language format

GOST 21021-2000 数字式程控装置.一般技术要求

Настоящий стандарт распространяется на программируемые устройства числового программного управления для металлообрабатывающего, дерев

Numerical control units. General technical requirements

DIN 66264-1:1995 工业自动化系统和集成.工业机械用多处理器控制系统(MPST).第1部分:平行总线

The document describes the structure, bus-signals and bus-operations, electrical characteristics, as well as the mechanical aspects of the MPST-system. It defines also interfaces in a modular multiprocessor control system for machines, which has a functional partition of the control functions.

Industrial automation systems and integration - Multiprocessor Control System for Industrial Machines (MPST) - Part 1: Parallel bus

NF Z68-035:1988 机床的数控.程序格式和地址字的定义.第1部分:定位、线性移动和廓控制系统用数据格式

Numerical control of machines. Program format and definition of address words. Part 1 : data format for positioning, line motion and contouring control systems.

DIN 66025-2:1988 工业自动化机床的数字控制.第2部分:格式、制备和多种功能

The standard contains the standardisation of key numbers for preparatory and miscellaneous functions (G- and M-functions) for the programming of numerical controlled machines.

Industrial automation; numerical control of machines; format, preparatory and miscellaneous functions

ISO 4342:1985 机床数字控制 数控(NC)处理程序输入 基本零件源程序参考语言

Defines a higher-level symbolic part-programming language which is processed by a digital computer to produce a NC machine program. Annex A gives rules for representing the RL on punched cards; annex B contains syntax description on the reference language; a list of recommended synonyms is given in annex C; annex D includes an alphabetical list of major words and locations.

Numerical control of machines; NC processor input; Basic part program reference language

DIN 66246-1:1983 机床的数字控制.NC处理器输入.基础部分程序参考语言

Numerical control of machines; NC processor input; basic part program reference language Zusammenhang mit dem Internationalen Norm-Entwurf ISO/DIS 4342 - 1980, siehe Erl?uterungen.

Numerical control of machines; NC processor input; basic part program reference language

DIN 66025-1:1983 机床的数字控制、格式.一般要求

Numerical control of machines, format; general requirementsZusammenhang mit Arbeiten der International Organization for Standardization (ISO), siehe Erl?uterungen.

Numerical control of machines, format; general requirements

ISO 6983-1:1982 机床数字控制 程序格式和地址字定义 第1部分:点位、直线运动和轮廓控制系统的数据格式

Specifies requirements and gives recommendations for the data format for control systems used in the numerical control of machines. Improves the co-ordination of system design in order to minimize the variety of program manuscripts required. Is not intended for use in flame cutting machines and drafting machines used specifically and exclusively in the shipuilding industry.

Numerical control of machines; Program format and definition of address words; Part 1 : Data format for positioning, line motion and contouring control systems

DIN 66215-2:1982 数控加工机械的程序设计.CLDATA.２０００型记录用微量元素（后处理机指令）

Programming of numerically controlled machines; CLDATA; minor elements of type 2000 records (post-processor commands)Zusammenhang mit der Internationalen Norm ISO 4343 der International Organization for Standardization (ISO), siehe Erl?uterungen.

Programming of numerically controlled machines; CLDATA; minor elements of type 2000 records (post-processor commands)

ISO/TR 6132:1981 机床数字控制 工作指令和数据格式

1 Data types The numerical control systems addressed by this Technical Report use a combination of two types of data : 1) Machine program data — Data formatted in accordance with ISO 2539 and coded in accordance with ISO 840. 2) Operational statements — Machine set-up, initialization and/or operational parameter data formatted in accordance with this Technical Report and coded in accordance with ISO 646. Character subset : 0-8 0-9 0-10 0-13 characters of column 2 except 2-7 characters of column 3 except 3-11 and 3-15 characters of column 4 except 4-0 characters of column 5 characters 7-12 and 7-15 2 Operational statements It is not expected that all NC systems will embody all the features and capabilities for which operational statements have been defined in this Technical Report. When an NC system has the capability to enter operational statements, the mnemonics and formats defined in this Technical Report shall be used. It is not intended that the functions defined herein shall limit the capabilities of NC systems; ad-ditional functions and operational statements may be defined and implemented by the control builder as required. It is also expected that in some instances, a control builder may, at his discretion, implement one or more of the functions defined herein exclusively with pushbutton switches or other conventional operator controls. If these functions are labelled in an abbreviated or mnemonic fashion, the mnemonics defined in this Technical Report shall be used. 3 Hardware configuration This Technical Report deals with numerical control systems which may assume any of a wide variety of hardware configurations ac-cording to the purpose and capabilities required of the system. Figure 1 shows a numerical control system containing several types of peripheral hardware. The primary concern of this Technical Report is the form of the data prepared by the part programmer or in-troduced by the operator into the numerical control system through one or more of these devices. In general, these data can be either "machine program data" or "operational statements". Binary data interchange in formats not conforming to this Technical Report may be utilized within or among various devices, at the convenience of the control builder, whenever such interchange is transparent to the user. Figure 1 suggests some of the possible types of peripheral equipment that may be used with a numerical control system; it is not the intent of this Technical Report to specify or to limit the types of peripherals used in a given system. Other standards exist to define some of the physical interfaces implied by figure 1. 4 Functional categories of commands To illustrate the implementation of a system having a broad range of commands and with maximum utilization of an alphanumeric keyboard for command entry, a system having a structure organization according to figure 2 has been used. Figure 2 shows several categories of commands that may be implemented. It is not the intent of this Technical Report to specifically require or to limit the commands to those shown in figure 2; the extent of the capabilities of any given numerical control system will depend upon the use to which the system is put. In some systems, diagnostic capabilities, management information system facilities and other specialized functions or categories might be provided in addition to those shown in figure 2. A feature of the organization shown in figure 2 is the existence of a Mode Selector level in the system structure. An operator com-municating with a numerical control system having this structure can gain access to any of the subordinate command categories from the Mode Selector level. Once he has entered the appropriate sub-level, he can perform any desired operation for which mnemonic commands have been defined in that command category. When he has completed his task, he can switch from the sub-level back to the Mode Selector level

Numerical control of machines; Operational command and data format