ISO/TS 13399-2:2014

TECHNICAL ISO/TS
SPECIFICATION 13399-2
Second edition
2014-02-15
Cutting tool data representation and
exchange —
Part 2:
Reference dictionary for the cutting
items
Représentation et échange des données relatives aux outils
coupants —
Partie 2: Dictionnaire de référence pour les éléments coupants
Reference number
©
ISO 2014
© ISO 2014
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ii © ISO 2014 – All rights reserved

Contents Page
Foreword .iv
Introduction .vi
1 Scope . 1
2 Normative references . 2
3 Terms and definitions . 2
4 Abbreviated terms . 5
5 Representation of the ontological concepts as dictionary entries .5
5.1 General . 5
5.2 cutting_item_feature . 5
5.3 cutting_item_type . 7
5.4 Reference systems for cutting items . 9
6 Properties for cutting item features and cutting item types .10
Annex A (normative) Information object registration .13
Annex B (informative) Classification tables .14
Annex C (informative) Class definitions .16
Annex D (informative) Cutting item property definitions .34
Annex E (informative) Illustrations of properties .79
Annex F (informative) Illustrations of irregular insert profiles and properties .90
Annex G (informative) Illustrations of reference positions for cutting items .99
Bibliography .104
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www.iso.org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the meaning of ISO specific terms and expressions related to conformity
assessment, as well as information about ISO’s adherence to the WTO principles in the Technical Barriers
to Trade (TBT) see the following URL: Foreword - Supplementary information
The committee responsible for this document is ISO/TC 29, Small tools.
This second edition cancels and replaces the first edition (ISO/TS 13399-2:2005), which has been
technically revised.
ISO 13399 consists of the following parts, under the general title Cutting tool data representation and
exchange:
— Part 1: Overview, fundamental principles and general information model
— Part 2: Reference dictionary for cutting items [Technical Specification]
— Part 3: Reference dictionary for tool items [Technical Specification]
— Part 4: Reference dictionary for adaptive items [Technical Specification]
— Part 5: Reference dictionary for accessory and auxiliary items [Technical Specification]
— Part 50 Reference dictionary for reference systems and common concepts [Technical Specification]
— Part 60: Reference dictionary for connection systems [Technical Specification]
— Part 100: Definitions, principles and methods for reference dictionaries [Technical Specification]
— Part 150: Usage guidelines [Technical Specification]
— Part 301: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3: Modelling
of thread‑cutting taps, thread‑forming taps and thread‑cutting dies [Technical Specification]
— Part 302: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3:
Modelling of solid drills and countersinking tools [Technical Specification]
The following parts are under preparation:
— Part 51: Designation system for customer solution cutting tools
iv © ISO 2014 – All rights reserved

— Part 80: Concept for the design of 3D models based on properties according to ISO 13399: Overview
and principles [Technical Specification]
— Part 201: Concept for the design of 3D models based on properties according to ISO/TS 13399‑2:
Modelling of regular inserts [Technical Specification]
— Part 202: Concept for the design of 3D models based on properties according to ISO/TS 13399‑2:
Modelling of irregular inserts [Technical Specification]
— Part 203: Concept for the design of 3D models based on properties according to ISO/TS 13399‑2:
Modelling of exchangeable inserts for drilling [Technical Specification]
— Part 204: Concept for the design of 3D models based on properties according to ISO/TS 13399‑2:
Modelling of inserts for reaming [Technical Specification]
— Part 303: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3:
Modelling of end mills with non‑indexable cutting edges [Technical Specification]
— Part 304: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3:
Modelling of milling cutters with arbor hole and non‑indexable cutting edges [Technical Specification]
— Part 307: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3:
Modelling of end mills for indexable inserts [Technical Specification]
— Part 308: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3:
Modelling of milling cutter with arbor hole for indexable inserts [Technical Specification]
— Part 309: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3: Tool
holders for indexable inserts [Technical Specification]
— Part 311: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3:
Modelling of solid reamers [Technical Specification]
— Part 312: Concept for the design of 3D models based on properties according to ISO/TS 13399‑3:
Modelling of reamers for indexable inserts [Technical Specification]
— Part 401: Concept for the design of 3D models based on properties according to ISO/TS 13399‑4:
Modelling of converting, extending and reducing adaptive items [Technical Specification]
— Part 405: Concept for the design of 3D models based on properties according to ISO/TS 13399‑4:
Modelling of collets [Technical Specification]
Introduction
This part of ISO 13399 defines the terms, properties, and definitions for those portions of a cutting tool
that remove material from a workpiece. Cutting items include replaceable inserts, brazed tips, and the
cutting portions of solid cutting tools. The purpose of this part of ISO 13399 is to provide a reference
dictionary to support the use of the general information model defined in ISO 13399-1.
A cutting tool with defined cutting edges is used on a machine to remove material from a workpiece by
a shearing action at the cutting edges of the tool. Cutting tool data that can be described by ISO 13399
(all parts) include, but are not limited to, everything between the workpiece and the machine tool.
Information about inserts (e.g. regular and irregular shaped replaceable cutting items), solid tools (e.g.
solid drill and solid endmill), assembled tools (e.g. boring bars, indexable drills and indexable milling
cutters), adaptors (e.g. milling arbor and drilling chuck), components (e.g. shims, screws and clamps) and
their relationships can be represented by ISO 13399 (all parts). Possible assemblies of the components of
a cutting tool are illustrated in Figure 1.
The objective of ISO 13399 (all parts) is to provide the means to represent the information that
describes cutting tools in a computer-sensible form that is independent from any particular computer
system. The representation will facilitate the processing and exchange of cutting tool data within and
between different software systems and computer platforms and support the application of this data
in manufacturing planning, cutting operations, and the supply of tools. The nature of this description
makes it suitable not only for neutral file exchange but also as a basis for implementing and sharing
product databases and for archiving. The methods used for these representations are those developed
by ISO/TC 184/SC 4 for the representation of product data by using standardized information models
and reference dictionaries.
An information model is a formal specification of types of ideas, facts, and processes which together
describe a portion of interest of the real world and which provides an explicit set of interpretation
rules. Information is knowledge of ideas, facts, and/or processes. Data are symbols or functions that
represent information for processing purposes. Data are interpreted to extract information by using
rules for how that should be done and a dictionary to define the terms that identify the data. Everyone
in a communication process is expected to use the same information model, the same set of explicit
rules and the same dictionary in order to avoid misunderstanding. If an information model and its
dictionary are written in a computer-sensible language, then there is the additional benefit that they
can be computer processable.
An engineering information model is therefore a specification for data that establishes the meaning
of that data in a particular engineering context. A model has to be developed by formal methods to
ensure that it meets the needs of the situation that it represents. An engineering information model
defines the information objects that represent the concepts in an engineering application, the attributes
of the objects, their relationships, and the constraints that add further meaning. An information model
is an abstract concept that can be used repeatedly for any example of the real-world situation that it
represents. An instance of the model is produced when it is populated with the data items and their
values that are applicable to a particular example of that situation.
This part of ISO 13399 uses the following International Standards developed by ISO/TC 184/SC 4:
— the EXPRESS language defined in ISO 10303-11 for defining the information model in ISO 13399-1;
— the file format for data exchange derived from the model and defined in ISO 10303-21;
— the data dictionary defined in the ISO 13584 series.
The ISO 13399 series is intended for use by, among others, tool producers and vendors, manufacturers,
and developers of manufacturing software. ISO 13399 provides a common structure for exchanging
data about cutting tools with defined cutting edges. ISO 13399 is intended to provide for, or improve,
several manufacturing activities, including
— the integration and sharing of data for cutting tools and assemblies between different stages for the
manufacturing cycle and between different software applications,
vi © ISO 2014 – All rights reserved

— the direct import of data from cutting tool suppliers into a customer’s database, and
— the management of cutting tool information from multiple sources and for multiple applications.
Different companies use different business models that determine their need for the communication of
information about their products. For example, one cutting tool manufacturer could regrind its customers’
tools while another could allow its customers to do the regrinding and provide the information to enable
them to do so. Therefore, the two cutting tool manufacturers could have a different set of cutting tool
properties to communicate using the information model and dictionaries provided in ISO 13399.
ISO 13399 defines only the information that could be communicated, but does not specify what
information shall be communicated.
Figure 1 — Possible assemblies of components of a cutting tool
Since the content of those dictionaries evolves according to industrial innovations and constant
improvement of technology in cutting tools, a Maintenance Agency has been established for the purposes
of
— correcting errors in the entries of existing classes and properties,
— adding new properties to existing classes,
— adding new classes and their properties,
— managing the status of those properties and classes, and
— migrating the dictionary to subsequent editions of ISO 13399 (all parts).
The secretariat of this Maintenance Agency has been assigned to:
Union de Normalisation de la Mécanique
F-92038 Paris La Défense CEDEX
France
by the ISO Technical Management Board.
The website of the Maintenance Agency is available at: http://www.unm.fr/main/core.php?pag_id=135
The reference dictionaries are available in the form of EXPRESS files on the website of the Maintenance
Agency. These files are considered complementary to this part of ISO 13399; they can be freely
downloaded and used for cutting tool data representation and exchange.
The following permission notice and disclaimer shall be included in all copies of this EXPRESS schema
(“the Schema”), and derivations of the Schema:
Permission is hereby granted, free of charge in perpetuity, to any person obtaining a copy of the Schema,
to use, copy, modify, merge and distribute free of charge, copies of the Schema for the purposes of
developing, implementing, installing and using software based on the Schema, and to permit persons to
whom the Schema is furnished to do so, subject to the following conditions:
THE SCHEMA IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESSED OR IMPLIED,
INCLUDING, BUT NOT LIMITED TO, THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL ISO, OR ANY OTHER LICENSOR
THAT GRANTS THE RIGHT UNDER THE ABOVE PERMISSION TO USE THE SCHEMA, BE LIABLE FOR
ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SCHEMA OR THE USE OR OTHER
DEALINGS IN THE SCHEMA.
In addition, any modified copy of the Schema shall include the following notice:
THIS SCHEMA HAS BEEN MODIFIED FROM THE SCHEMA DEFINED IN ISO 13399, AND SHOULD
NOT BE INTERPRETED AS COMPLYING WITH THAT INTERNATIONAL STANDARD.
viii © ISO 2014 – All rights reserved

TECHNICAL SPECIFICATION ISO/TS 13399-2:2014(E)
Cutting tool data representation and exchange —
Part 2:
Reference dictionary for the cutting items
1 Scope
This part of ISO 13399 specifies a reference dictionary for cutting items, together with their descriptive
properties and domains of values.
This part of ISO 13399 specifies a reference dictionary containing:
— definitions and identifications of the classes of cutting items and their features, with an associated
classification scheme;
— definitions and identifications of the data element types that represent the properties of cutting
items and their features;
— definitions and identifications of domains of values for describing the above-mentioned data element
types.
Each class, property, or domain of values of this application domain constitutes an entry of the reference
dictionary defined in this part of ISO 13399. It is associated with a computer-sensible and human-
readable definition and with a computer-sensible identification. Identification of a dictionary entry
allows unambiguous reference to it from any application that implements the information model defined
in ISO 13399-1.
Definitions and identifications of dictionary entries are defined by means of standard data that consist
of instances of the EXPRESS entity data types defined in the common dictionary schema, resulting from
a joint effort between ISO/TC 184/SC 4 and IEC SC 3D, and in its extensions defined in ISO 13584-24 and
ISO 13584-25.
The following are within the scope of this part of ISO 13399:
— standard data that represent the various classes of cutting items and cutting item features;
— standard data that represent the various properties of cutting items and cutting item features;
— standard data that represent domains of values used for properties of cutting items and cutting
item features;
— definitions of reference systems for cutting items and their properties;
— one implementation method by which the standard data defined in this part of ISO 13399 can be
exchanged.
NOTE 1 The implementation method by which the standard data defined in this part of ISO 13399 can be
exchanged is specified in ISO 10303-21.
The following are outside the scope of this part of ISO 13399:
— applications where these standard data can be stored or referenced;
— implementation methods other than the one defined in this part of ISO 13399 by which the standard
data can be exchanged and referenced;
— information model for cutting tools;
— definitions of classes and properties for tool items;
— definitions of classes and properties for adaptive items;
— definitions of classes and properties for assembly items and auxiliary items.
NOTE 2 The information model for cutting tools is defined in ISO 13399-1.
NOTE 3 The definitions of classes and properties for tool items, adaptive items, assembly items, and auxiliary
items are provided in ISO/TS 13399-3, ISO/TS 13399-4, and ISO/TS 13399-5, respectively.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
ISO 1832, Indexable inserts for cutting tools — Designation
ISO 3002-1, Basic quantities in cutting and grinding — Part 1: Geometry of the active part of cutting tools —
General terms, reference systems, tool and working angles, chip breakers
ISO/TS 13399-100:2008, Cutting tool data representation and exchange — Part 100: Definitions, principles
and methods for reference dictionaries
ISO 13584-1:2001, Industrial automation systems and integration — Parts library — Part 1: Overview and
fundamental principles
ISO/IEC 8824-1, Information technology — Abstract Syntax Notation One (ASN.1): Specification of basic
notation — Part 1
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO/TS 13399-100 (structure and
contents of the dictionary) and the following apply.
NOTE The main collection of the terms and their definitions in the reference dictionary is provided in
Annexes B to D.
3.1
applicable property
property that is defined for some family of items and that shall apply to any member of this family
[SOURCE: ISO 13584-24:2003]
3.2
basic semantic unit
entity that provides an absolute and universally unique identification of a certain object of the application
domain that is represented as a dictionary element
[SOURCE: ISO 13584-42:2010, 3.4]
3.3
chip
material removed from a workpiece by a cutting process
2 © ISO 2014 – All rights reserved

3.4
cutting tool
device or assembly of items for removing material from a workpiece through a shearing action at the
defined cutting edge or edges of the device
[SOURCE: ISO 13399-1:2006, 3.1]
Note 1 to entry: A cutting tool could be an assembly of one or more adaptive items, a tool item, and several cutting
items on a tool item. See Figure 1.
3.5
data
representation of information in a formal manner suitable for communication, interpretation, or
processing by human beings or computers
[SOURCE: ISO 10303-1:1994, 3.2.14]
3.6
data element type
unit of data for which the identification, description, and value representation have been specified
[SOURCE: ISO 13584-42:2010, 3.13]
3.7
data exchange
storing, accessing, transferring, and archiving of data
[SOURCE: ISO 10303-1:1994, 3.2.15]
3.8
data type
domain of values
[SOURCE: ISO 10303-11:2004, 3.3.5]
3.9
dictionary
table consisting of a series of entries with one meaning corresponding to each entry in the dictionary
and one dictionary entry identifying a single meaning
[SOURCE: ISO 13584-511:2006, 3.1.9]
Note 1 to entry: In the ISO 13399 series, a dictionary is a formal and computer-sensible representation of an
ontology.
3.10
entity
class of information defined by its attributes which establishes a domain of values defined by common
attributes and constraints
3.11
entity data type
representation of an entity
3.12
entity instance
named unit of data that represents a unit of information within the class defined by an entity
Note 1 to entry: An entity instance is a member of the domain established by an entity data type.
3.13
family of products
set of products represented by the same characterization class
[SOURCE: ISO 13584-42:2010, 3.16]
3.14
implementation method
means for computers to exchange data
3.15
information
facts, concepts, or instructions
[SOURCE: ISO 10303-1:1994, 3.2.20]
3.16
information model
formal model of a bounded set of facts, concepts, or instructions to meet a specific requirement
[SOURCE: ISO 10303-1:1994, 3.2.21]
3.17
irregular insert
replaceable cutting item that cannot be described by a regular geometric shape
3.18
machined surface
desired surface produced by the action of the cutting tool
[SOURCE: ISO 3002-1:1982, 3.1.2]
3.19
ontology
explicit and consensual specification of concepts of an application domain independent of any use of
these concepts
[SOURCE: ISO 13584-511:2006, 3.1.20]
Note 1 to entry: In the ISO 13399 series, a dictionary is the formal and computer-sensible representation of
ontology.
3.20
property
defined parameter suitable for the description and differentiation of products
[SOURCE: ISO 13584-42:2010, 3.37]
3.21
regular insert
replaceable cutting item that can be described by a regular geometric shape
3.22
transient surface
part of the surface which is formed on the workpiece by the cutting edge and removed during the
following cutting stroke, during the following revolution of the tool or workpiece, or by the following
cutting edge
[SOURCE: ISO 3002-1:1982, 3.1.3]
4 © ISO 2014 – All rights reserved

3.23
visible property
property that has a definition meaningful in the scope of a given characterization class, but that does not
necessarily apply to the various products belonging to this class
[SOURCE: ISO 13584-42:2010, 3.46]
3.24
workpiece
object on which a cutting action is performed
3.25
work surface
surface on the workpiece that is to be removed by machining
[SOURCE: ISO 3002-1:1982, 3.1.1]
4 Abbreviated terms
For the purposes of this document, the following abbreviated terms apply.
BSU basic semantic unit
DET data element type
5 Representation of the ontological concepts as dictionary entries
5.1 General
A concept in the ontology is identified by a name in lower-case characters. The name of a class that
represents the concept in the dictionary is identified by bold, lower-case letters with multiple words
joined by an underscore character.
EXAMPLE cutting item type is the name of a concept in the ontology. cutting_item_type is the identifier of
the class in the dictionary that represents the concept.
Cutting items are represented by two main classes: cutting_item_feature and cutting_item_type. The
structure of the classification is provided in Annex B. The definitions of the cutting item classes are
provided in Annex C.
5.2 cutting_item_feature
Characteristic of a cutting item that cannot exist independently of the cutting item.
cutting_item_feature has the following subclasses:
— chip_breaker;
— cutting_corner;
— cutting_edge;
— cutting_item_coating;
— cutting_item_material;
— cutting_item_profile;
— fixing_hole;
— flank;
— gauge_circle;
— inscribed_circle.
5.2.1 chip_breaker
Modification of the face of a cutting item to control or break the chip.
NOTE A chip breaker is either an integral groove or an obstruction attached to the face.
5.2.2 cutting_corner
Transition between two cutting edges.
cutting_corner has the following subclasses:
— chamfered_corner;
— rounded_corner.
5.2.3 cutting_edge
Junction between two surfaces that performs the cutting operation.
cutting_edge has the following subclasses:
— cutting_edge_conditioned;
— cutting_edge_interrupted;
— cutting_edge_major;
— cutting_edge_minor;
— wiper_edge.
5.2.4 cutting_item_coating
Additional material deposited on the surface of a cutting item.
NOTE A cutting item coating can consist of layers of several materials.
5.2.5 cutting_item_material
Substance from which a cutting item is made.
5.2.6 cutting_item_profile
Shape traced out by the cutting edges of a cutting item.
cutting_item_profile has the following subclasses:
— ball_nosed_profile;
— drilling_profile;
— grooving_parting profile;
— threading_profile.
6 © ISO 2014 – All rights reserved

5.2.7 fixing_hole
Hole through the body of a replaceable cutting item that is used for attaching the cutting item to a tool
item.
5.2.8 flank
Surface or surfaces of a cutting item that pass over the transient surface of the workpiece.
flank has the following subclasses:
— flank_major;
— flank_minor;
— flank_wiper_edge.
5.2.9 gauge_circle
Circle established by a measurement device on a cutting item that does not have an inscribed circle.
5.2.9.1 inscribed_circle
Circle to which all edges of an equilateral and round regular insert are tangential.
5.3 cutting_item_type
Family of items that can be held by a tool item or be part of a solid tool.
NOTE The cutting item is the part of the cutting tool that is in contact with the workpiece during the cutting
operation.
REMARKS The names of items in this class are not intended to refer to the use of the item in a
particular cutting operation.
cutting_item_type has the following simple families of items as subclasses:
— equilateral_equiangular;
— equilateral_nonequiangular;
— non replaceable_cutting_item;
— nonequilateral_equiangular;
— nonequilateral_nonequiangular;
— round_insert;
— specific_profile_insert.
5.3.1 equilateral_equiangular
Type of cutting item of regular geometric shape with sides of equal length and equal included angles.
NOTE The class contains inserts with the ISO shape codes H, O, P, S, and T.
equilateral_equiangular has the following items as subclasses:
— hexagonal_insert;
— octagonal_insert;
— pentagonal_insert;
— square_insert;
— triangular_insert.
5.3.2 equilateral_nonequiangular
Type of cutting item of regular geometric shape with sides of equal length and non-equal included angles.
NOTE The class contains inserts with the ISO shape codes C, D, E, M, and V for rhombic inserts and W for
trigon inserts.
equilateral_nonequiangular has the following items as subclasses:
— rhombic_insert;
— trigon_insert.
5.3.3 non_replaceable_cutting_item
Cutting item that is permanently fixed to, or part of, a tool item.
5.3.4 nonequilateral_equiangular
Type of cutting item of regular geometric shape with sides of non-equal length and equal included angles.
NOTE The class contains inserts with the ISO shape code L.
nonequilateral_equiangular has the following item as a subclass:
— rectangular_insert.
5.3.5 nonequilateral_nonequiangular
Type of cutting item of regular geometric shape with sides of non-equal length and non-equal included
angles.
NOTE The class contains inserts with the ISO shape codes A, B, and K.
nonequilateral_nonequiangular has the following items as subclasses:
— parallelogram_insert.
5.3.6 round_insert
Type of cutting item with circular cutting edges.
NOTE This class contains inserts with the ISO shape code R.
5.3.7 specific_profile_insert
Type of cutting item that possesses a defined profile shape.
NOTE A synonymous name is irregular_insert.
8 © ISO 2014 – All rights reserved

5.4 Reference systems for cutting items
Reference systems are geometrical coordinate axes with planes and locations on these axes that allow
the definition of properties of cutting items and other components of a cutting tool. Reference systems
are illustrated in Annex G.
NOTE The convention for all the reference systems is the tool-in-hand system (ISO 3002-1:1982).
The classes of reference systems for cutting items are as follows:
— primary_coordinate_system;
— irregular_insert_position;
— mirror_plane;
— regular_insert_position;
— xy_plane;
— xz_plane;
— yz_plane.
5.4.1 primary_coordinate_system
The primary_coordinate_system is a right-handed, rectangular Cartesian system in three-dimensional
space with three principal axes labelled X, Y, and Z.
5.4.2 irregular_insert_position
An irregular insert is located on the primary coordinate system in the XY quadrant with the cutting
edges in the xy-plane, the cutting profile pointing in the negative Y direction, the forward extremity of
the cutting profile on the positive x-axis, and the side extremity of the insert on the y-axis.
NOTE The definition applies to right-hand inserts. The position of left-hand inserts is as mirrored through
the yz-plane.
5.4.3 mirror_plane
The mirror_plane is the yz-plane in the primary coordinate system.
5.4.4 regular_insert_position
A regular insert is located on the primary coordinate system in the XY quadrant with the cutting edges
on the xy-plane, the major cutting edge on the positive x-axis, and the theoretical sharp point of the
insert on the y-axis.
NOTE The definition applies to right-hand inserts. The position of left-hand inserts is as mirrored through
the yz-plane.
REMARKS The positions of right-hand and left-hand regular inserts are illustrated in Figure G.13.
5.4.5 xy_plane
The xy_plane is the plane in the primary coordinate system that contains the X and Y axes with the
normal of the plane in the positive Z direction.
5.4.6 xz_plane
The xz_plane is the plane in the primary coordinate system that contains the X and Z axes with the
normal of the plane in the positive Y direction.
5.4.7 yz_plane
The yz_plane is the plane in the primary coordinate system that contains the Y and Z axes with the
normal of the plane in the positive X direction.
6 Properties for cutting item features and cutting item types
The properties of cutting item types and cutting item features are defined in Annex D, where the
association of a property with a class is specified. In the compilation of the dictionary, all properties are
visible properties at the root class of the dictionary and are made applicable properties at the class level
where they apply. The names of properties that can be applicable for cutting item features and cutting
item types, with their identification codes (BSU), are shown in Table 1. The order of names in the table
should be read in rows from left to right.
NOTE The BSU can be made unique by the addition of the supplier of the dictionary as a prefix to the
identification code.
EXAMPLE The unique BSU for chip_breaker_face_count would be: 0112/1///13399__2–71CE7A85CC4F9 for
version two of the dictionary.
Table 1 — Names of properties for cutting items
Property name Identification code (BSU)
chamfer corner property 72550DF97C965
chip breaker face count 71CE7A85CC4F9
chip breaker manufacturers designation 71CE7A86A4264
chip breaker property 71CED0217FA18
chip breaker width 71CE7A870948A
chisel edge angle 71EAC82B2A50E
chisel edge length 71EAC82ADE5EA
clearance angle major 71DD70308D3E3
clearance angle minor 71DD7030E0A00
clearance angle wiper edge 71DD7031A98E9
coating property 71DD703B84298
coolant exit entry code 71CF2985DCED3
coolant exit style code 71CF2985FC5FC
corner chamfer angle 71DD6C88F9210
corner chamfer length 71DD6C895C25B
corner chamfer width 71DD6C89A120F
corner count 71CEAE9B67E4C
corner identity 71DD6C8802580
corner radius 71DD6C8ACA503
cutting depth maximum 71CEAEBD5A66A
cutting edge angle major 71CE7AA02C1CC
cutting edge angle major left hand 71CE7AA3440B4
10 © ISO 2014 – All rights reserved

Table 1 (continued)
Property name Identification code (BSU)
cutting edge angle major right hand 71CE7AA78C2F0
cutting edge condition code 71DD6C90953D8
cutting edge count 71CEAE9B489F4
cutting edge curvature 71DD6C950E7CC
cutting edge effective length 71DD6C958C615
cutting edge identity 71DD6C8B86265
cutting edge length 71DD6C95DA49B
cutting point translation X-direction 71FD1E2EDD973
cutting point translation Y-direction 71FD1E2F66B38
cutting width 71CEAEBE2B825
depth of cut maximum 71D07576C0558
face land angle 71DD6C9332D2C
face land size code 71DD6C9371B86
face land width 71DD6C9394F40
fixing hole diameter 71CE7A968C8FE
fixing hole property 71D1C829BC044
flank identity 71DD70158265C
fluted land width 71EAC8210DF36
gauge circle property 72550A75A58F9
gauge diameter 71EBC1E1074AB
gauge distance 72550A78BC664
grind style code 72550E3BD998C
hand 71CF29872F0AB
inscribed circle diameter 71CE7A96D9F7D
inscribed circle property 71D1C82A5036D
insert body width 71CE7A9751A90
insert cutting diameter 71CF30F02C968
insert diameter 71D20799C721A
insert hand 71CE7A979F41C
insert included angle 71CE7A96BC122
insert index count 71CE7AA1998FF
insert interface code 71CE7A9936610
insert length 71CE7A9DFA23A
insert mounting style code 71CE7A97711B8
insert rake angle 71CE7A9EDACA1
insert seat size code 71CEAEBF2A69F
insert shape code 71CE7A9F0C79F
insert thickness 71CE7A9F5308C
insert thickness total 72550E143C993
insert width 71CE7A9FB11C3
interrupted edge property 71DD701175021
Table 1 (continued)
Property name Identification code (BSU)
m-dimension 71CE7AA0972DB
m2-dimension 71CE7AA05C819
overall length minimum 71EBC1E8857BE
point angle 71DCCC4FEF366
point length 71DCCFD064042
profile angle left hand 71CEAEBEAB020
profile angle right hand 71CEAEBED837E
profile distance ex 71CEAEBFEF1B4
profile distance ey 71CEAEC0139BB
profile included angle 71CEAEBF0C234
profile radius 71E019EBAE1B1
profile style code 71CEAEBDE5798
relief angle 71DD9D00193A7
relief angle left hand 71CE7E6520B87
relief angle right hand 71CE7E6569AB5
rounded corner property 71DD7011A3D86
taper gradient 71CEAEC02FEBD
taper thread count 71DF154901E44
thread form type 71D1A69F60053
thread hand 71E033FCBB61C
thread height actual 71DF5BE65F86F
thread height difference 71DF5BE617131
thread height theoretical 71DF5BE5BCEBE
thread pitch 71CEAEC08D4B0
thread pitch maximum 71D1A6A283836
thread pitch minimum 71D1A6A247E1F
thread profile type 71CEAEC114603
thread tolerance class 71DF153FA5F85
thread type 71D1A6A16E6ED
threading length 72550E426D771
threads per inch 71D1A6AAC8707
threads per inch maximum 71D1A6AB8F739
threads per inch minimum 71D1A6AB6FB19
tipped cutting edge code 71CE7AA1E3D75
tolerance class insert 71CE7AA215888
tooth count 71CEAEBF8A68E
weight of item 71CED03C97AAB
wiper edge length 71CE7AA249F88
wiper edge property 71CED022114EC
wiper edge radius 71CE7AA2E50BE
12 © ISO 2014 – All rights reserved

Annex A
(normative)
Information object registration
A.1 Document identification
In order to provide for unambiguous identification of an information object in an open system, the object
identifier:
{iso technical specification 13399 part (2) version (2)}
is assigned to this part of ISO 13399. The meaning of this value is defined in ISO/IEC 8824-1 and is
described in ISO 13584-1.
A.2 Dictionary identification
The dictionary defined in this part of ISO 13399 is assigned the object identifier:
{iso technical specification 13399 part (2) version (2) object (2) cutting items (2)}
Annex B
(informative)
Classification tables
Table B.1 shows the classification structure of the generic families in the dictionary with an expanded
structure for the classes of cutting items feature and cutting item type. The purpose of the table is to
show the relationships between the classes of cutting items and the other classes in the ISO 13399 series.
NOTE Annex C contains the definition of all the classes that are relevant to cutting items and definitions
of those classes of reference systems that are used in the definition of the properties of cutting item types and
cutting item features.
Table B.1
Classification structure Parent BSU
cutting tool library Root 71CE7A72B6DA7
adaptive item type 71CE7A72B6DA7 71EAD37F18F34
adjustment 71CE7A72B6DA7 71ED884159C90
assembly item type 71CE7A72B6DA7 71CE7A795C05C
bolt hole circle 71CE7A72B6DA7 71E02520881F1
connection interface fea-
ture 71CE7A72B6DA7 71DF8C37D9115
coolant supply 71CE7A72B6DA7 71DF8C3C065EB
cutting item feature 71CE7A72B6DA7 71DD6C82F72DA
chip breaker 71DD6C82F72DA 71DD6C870BCCA
cutting corner 71DD6C82F72DA 71DD6C87BB5E1
71DD6C87BB5E1 71DD6C884C4BD
chamfered corner 71DD6C87BB5E1 71DD6C8A9985E
rounded corner 71DD6C82F72DA 71DD6C8B42A9E
cutting edge 71DD6C8B42A9E 71DD6C8C4F46C
cutting edge condi-
tion 71DD6C8B42A9E 71DD6C93E8F02
cutting edge inter-
rupted 71DD6C8B42A9E 71DD6C9466F30
cutting edge major 71DD6C8B42A9E 71DD6C961D7FE
cutting edge minor 71DD6C8B42A9E 71DD6C9A21689
wiper edge 71DD6C82F72DA 71DD9D01038CF
cutting item coating 71DD6C82F72DA 71DD703BE6B82
cutting item material 71DD6C82F72DA 71DD70030304C
cutting item profile 71DD70030304C 71DD700BC8BE2
ball nosed profile 71DD70030304C 71DD700BE1D04
drilling profile 71DD70030304C 71DD700BFD9B9
grooving parting
profile 71DD70030304C 71DD700C151B5
14 © ISO 2014 – All rights reserved

Table B.1
Classification structure Parent BSU
threading profile 71DD6C82F72DA 71DD7014BF2A1
fixing hole 71DD6C82F72DA 71DD70155A4B1
flank 71DD70155A4B1 71DD7015F073B
flank major 71DD70155A4B1 71DD701618C71
flank minor 71DD70155A4B1 71DD70163AA42
flank wiper edge 71DD6C82F72DA 72550A75A58F9
gauge circle 71DD6C82F72DA 71DD7032B51CD
inscribed circle 71CE7A72B6DA7 71D1AA6C8FC75
drilling insert 71D1AA6C8FC75 72550E1361C6C
equilateral equiangular 71D1AA6C8FC75 71D1AA486FF89
hexagonal insert 71D1AA486FF89 71DD68D7A8E5F
octagonal insert 71D1AA486FF89 71DD68D7CB4FA
pentagonal insert 71D1AA486FF89 71DD68D80B094
square insert 71D1AA486FF89 71DD68D829217
triangular insert 71D1AA486FF89 71DD68D8446CE
equilateral nonequiangular 71D1AA6C8FC75 71D1AE11B8B77
rhombic insert 71D1AE11B8B77 71DD68D301C30
trigon insert 71D1AE11B8B77 71DD68D73218C
non replaceable cutting
item 71D1AA6C8FC75 7224CCDD587CF
nonequilateral equiangular 71D1AA6C8FC75 71D1AE120D96E
rectangular insert 71D1AE120D96E 71DD68D91938A
nonequilateral nonequian-
gular 71D1AA6C8FC75 71D1AA489FD6E
parallelogram insert 71D1AA489FD6E 71DD68D966F52
round insert 71D1AA6C8FC75 71D1AA6635E76
specific profile insert 71D1AA6C8FC75 71DDA089C8D1E
cutting operation 71CE7A72B6DA7 71DFF83D21D50
cutting tool 71CE7A72B6DA7 71CE7A7A5038B
flange 71CE7A72B6DA7 71EC5A767182E
keyway 71CE7A72B6DA7 71DF5C026BCE7
locking mechanism 71CE7A72B6DA7 71EBAB85BB5FA
reference system 71CE7A72B6DA7 71CF2968F7A9E
runout axial 71CE7A72B6DA7 71EDD2B84143C
runout radial 71CE7A72B6DA7 71EDD2B858274
tool item feature 71CE7A72B6DA7 71DD70376771D
tool item type 71CE7A72B6DA7 71E01A004C775
tool thread external
...