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Dislocation Ontology

Release 17.08.2023

Latest version:
https://purls.helmholtz-metadaten.de/disos/diso
Revision:
1.1
Authors:
Ahmad Zainul Ihsan
Contributors:
Said Fathalla
Stefan Sandfeld
Download serialization:
JSON-LD RDF/XML N-Triples TTL
License:
http://creativecommons.org/licenses/by/3.0/
Visualization:
Visualize with WebVowl
GitHub:
Repository
Funding:
Funded by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under the National Research Data Infrastructure – NFDI 38/1 – project number 460247524.
Ontology Specification Draft

Introduction back to ToC

The dislocation ontology (DISO) is an ontology defining the concepts and relationships related to linear defects in crystalline materials. We developed DISO using a top-down approach in which we start defining the most general concepts in the dislocation domain and subsequent specialization of them. DISO is published through a persistent URL following W3C best practices for publishing Linked Data.

For the version 1.1, we adapt and extend the DISO so that it can model various concepts and relationships in the discrete dislocation dynamics domain. The adaption includes adding missing concepts, improving classes definitions, exploring additional relationships between concepts, and finally aligning it with other domain-related ontologies, including the Elementary Multi-perspective Material Ontology (EMMO) and the Materials Design Ontology (MDO). This allows for representing the dislocation simulation data efficiently.

Namespace declarations

Table 1: Namespaces used in the document
DISO<https://purls.helmholtz-metadaten.de/disos/diso>
qudt<http://qudt.org/schema/qudt>
mwo<http://purls.helmholtz-metadaten.de/mwo>
owl<http://www.w3.org/2002/07/owl>
emmo<http://emmo.info/emmo>
xsd<http://www.w3.org/2001/XMLSchema>
skos<http://www.w3.org/2004/02/skos/core>
rdfs<http://www.w3.org/2000/01/rdf-schema>
structure<https://w3id.org/mdo/structure>
cdo<https://purls.helmholtz-metadaten.de/disos/cdo>
core<https://w3id.org/mdo/core>
crystallography<http://emmo.info/domain-crystallography/crystallography>
provenance<https://w3id.org/mdo/provenance>
rdf<http://www.w3.org/1999/02/22-rdf-syntax-ns>
terms<http://purl.org/dc/terms>
xml<http://www.w3.org/XML/1998/namespace>
perceptual<http://emmo.info/emmo/middle/perceptual>
vann<http://purl.org/vocab/vann>
prov<http://www.w3.org/ns/prov>
cso<https://purls.helmholtz-metadaten.de/disos/cso>
foaf<http://xmlns.com/foaf/0.1>

Dislocation Ontology: Overview back to ToC

This ontology has the following classes and properties.

Classes

Object Properties

Data Properties

Annotation Properties

Dislocation Ontology: Description back to ToC

This is a placeholder text for the description of your ontology. The description should include an explanation and a diagram explaining how the classes are related, examples of usage, etc.

Cross-reference for Dislocation Ontology classes, object properties and data properties back to ToC

This section provides details for each class and property defined by Dislocation Ontology.

Classes

activityc back to ToC or Class ToC

IRI: http://www.w3.org/ns/prov#Activity

has super-classes
has sub-classes
DDD Simulation c

Basisc back to ToC or Class ToC

IRI: https://w3id.org/mdo/structure/Basis

A basis defines a spatial unit used to express fractional coordinates.
has super-classes

Burgers Vectorc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector

An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector.
has super-classes
Vector c
is in range of
has Burgers vector op

calculated propertyc back to ToC or Class ToC

IRI: https://w3id.org/mdo/core/CalculatedProperty

has super-classes
property c
has sub-classes
Dislocation Density c

calculationc back to ToC or Class ToC

IRI: https://w3id.org/mdo/core/Calculation

has super-classes
has sub-classes
DDD Simulation c

Coordinate Vectorc back to ToC or Class ToC

IRI: https://w3id.org/mdo/structure/CoordinateVector

has super-classes

Cross Slipc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#CrossSlip

A simulation parameter to enable the cross slip process of dislocation network/structure.
has super-classes
DDD Simulation Parameter c
is in domain of
cross slip parameter activation dp
is disjoint with
External Load Parameter c, Junction Formation c

Crystalc back to ToC or Class ToC

IRI: http://emmo.info/domain-crystallography/crystallography#EMMO_69dab453_6596_464d_a21d_d64643f4ed9b

is equivalent to
Crystalline Material c
has super-classes
Solid c

Crystal Structurec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure

A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell.
has super-classes
is in domain of
has slip plane op, has slip system op

Crystalline Materialc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cdo#CrystallineMaterial

has super-classes
is in range of
relates to crystalline material op

Crystallographic Defectc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cdo#CrystallographicDefect

The crystallographic defect is a lattice irregularity that has one or more dimensions on the order of an atomic diameter.
has super-classes
Crystallographical c
has sub-classes
Line Defect c
is in range of
has crystallographic defect op

Crystallographicalc back to ToC or Class ToC

IRI: http://emmo.info/domain-crystallography/crystallography#EMMO_78a3d6f9_0bbd_4b44_a9a9_baf3df276a06

has super-classes
Language c
has sub-classes
CrystalStructure c, Crystallographic Defect c

CrystalStructurec back to ToC or Class ToC

IRI: http://emmo.info/domain-crystallography/crystallography#EMMO_6a340d67_c6cb_4348_8537_d9aa0e768721

is equivalent to
Crystal Structure c
has super-classes
Crystallographical c

Cubec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Cube

A three-dimensional solid object bounded by six square faces, facets or sides, with three meeting at each vertex.
has super-classes
is in range of
has cube op

DDD Simulationc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#DDDSimulation

Discrete dislocation dynamics (DDD) simulation is a simulation that is used to determine individual dislocation properties and study the distribution, arrangement, and density of dislocations in crystalline materials. The simulation observes the collective motion of many dislocations that links the relationship between the microstructure, loading conditions, and the mechanical properties of a crystalline material.
has super-classes
activity c, calculation c
is in domain of
DDD Simulation ID dp, has input dislocation structure op, has output dislocation structure op, has simulation parameter op, mesh format dp, simulation boundary type dp, simulation description dp, simulation loading condition dp, simulation step number dp, simulation temperature dp

DDD Simulation Parameterc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#DDDSimulationParameter

A Parameter that is used to run a DDD simulation.
has sub-classes
Cross Slip c, External Load Parameter c, Junction Formation c, Remesh Parameter c
is in domain of
parameter activation dp
is in range of
has simulation parameter op

Discretized Linec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine

The numerical representation of the dislocation line that is discretized into the number of segments.
has super-classes
Numerical c
is in domain of
discretized line ID dp, has segment op, has shape function op, slip area dp
is in range of
has numerical representation op, is segment of op
is disjoint with
Line c

Dislocationc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Dislocation

Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not.
has super-classes
Line Defect c
has sub-classes
Edge Dislocation c, Mixed Dislocation c, Screw Dislocation c
is in domain of
has Burgers vector op, has line sense op, has mathematical representation op, moves on op, observed by op, results in op

Dislocation Densityc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#DislocationDensity

A quantifiable of the total length of dislocation line per unit volume of a crystalline material.
has super-classes
calculated property c

Dislocation Structurec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#DislocationStructure

Structure that describes a dislocation (micro)structure, which is a virtual specimen used by a DDD simulation to study the mechanical properties of a crystalline materials.
has super-classes
structure c
is in domain of
has cube op, has shape op, is relaxed dp
is in range of
has input dislocation structure op, has output dislocation structure op

Edge Dislocationc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#EdgeDislocation

A dislocation that has a line sense perpendicular to its Burgers vector.
has super-classes
Dislocation c
is disjoint with
Screw Dislocation c

External Load Parameterc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#ExternalLoadParameter

A simulation parameter to enable the external load imposed on dislocation network.
has super-classes
DDD Simulation Parameter c
is in domain of
external load parameter activation dp
is disjoint with
Cross Slip c, Junction Formation c

Family of Crystal Directionc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection

A set of symmetrically equivalent directions in the lattice.
has super-classes
has sub-classes
Lattice Direction c
is in domain of
family direction miller indice dp
is in range of
has family crystal direction op
is disjoint with
Family of Crystal Plane c

Family of Crystal Planec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane

A set of symmetrically equivalent planes in the lattice.
has super-classes
has sub-classes
Lattice Plane c
is in domain of
family plane miller indice dp
is in range of
has family crystal plane op
is disjoint with
Family of Crystal Direction c

Field Ion Microscopyc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#FieldIonMicroscopy

Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms.
is disjoint with
Transmission Electron Microscopy c

Junction Formationc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#JunctionFormation

A simulation parameter to enable the junction formation of a dislocation network/structure.
has super-classes
DDD Simulation Parameter c
is in domain of
junction formation parameter activation dp
is disjoint with
Cross Slip c, External Load Parameter c

Languagec back to ToC or Class ToC

IRI: http://emmo.info/emmo#EMMO_d8d2144e_5c8d_455d_a643_5caf4d8d9df8

has sub-classes
Crystallographical c, Mathematical c

Latticec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#Lattice

The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms.
has super-classes

Lattice Directionc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection

The vector direction inside the lattice that is connecting two lattice points.
has super-classes
Family of Crystal Direction c, Vector c
has sub-classes
Slip Direction c
is in domain of
has family crystal direction op
is in range of
has lattice direction op

Lattice Displacementc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#LatticeDisplacement

The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary.
is in range of
results in op

Lattice Planec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane

The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs.
has super-classes
Family of Crystal Plane c
has sub-classes
Slip Plane c
is in domain of
has family crystal plane op, has vector origin op, plane miller indice dp
is in range of
has lattice plane op

Lattice Pointc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint

Lattice point is the point where atom(s) or molecule(s) is located.
has super-classes
Point c
is in range of
has lattice point op

Lengthc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Length

A magnitude of line that has a unit.
has super-classes
Quantity c
is in range of
has length op

Linec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Line

Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length.
has super-classes
MathematicalModel c
is in domain of
has numerical representation op, has pixel representation op
is in range of
has mathematical representation op
is disjoint with
Discretized Line c, Node c

Line Defectc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#LineDefect

Linear or one-dimensional defect around which some of the atoms are misaligned.
has super-classes
Crystallographic Defect c
has sub-classes
Dislocation c

Line Sensec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#LineSense

A sense that characterizes a directed line, i.e., it has a start and an end.
is in domain of
line sense direction dp
is in range of
has line sense op

Mathematicalc back to ToC or Class ToC

IRI: http://emmo.info/emmo#EMMO_54ee6b5e_5261_44a8_86eb_5717e7fdb9d0

has super-classes
Language c
has sub-classes
MathematicalModel c, Numerical c

MathematicalModelc back to ToC or Class ToC

IRI: http://emmo.info/emmo#EMMO_f7ed665b_c2e1_42bc_889b_6b42ed3a36f0

has super-classes
Mathematical c
has sub-classes
Line c

Mixed Dislocationc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#MixedDislocation

A dislocation that has a line sense neither perpendicular nor parallel to its Burgers vector.
has super-classes
Dislocation c

Nodec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Node

A point of a segment.
has super-classes
Point c
is in domain of
node ID dp
is in range of
has end node op, has node op, has start node op
is disjoint with
Line c, Segment c

Numericalc back to ToC or Class ToC

IRI: http://emmo.info/emmo#EMMO_4ce76d7f_03f8_45b6_9003_90052a79bfaa

has super-classes
Mathematical c
has sub-classes
Discretized Line c

personc back to ToC or Class ToC

IRI: http://www.w3.org/ns/prov#Person

has super-classes
agent c

physical propertyc back to ToC or Class ToC

IRI: https://w3id.org/mdo/core/PhysicalProperty

has super-classes
property c

Pictorialc back to ToC or Class ToC

IRI: http://emmo.info/emmo/middle/perceptual#EMMO_1da53c06_9577_4008_8652_272fa3b62be7

has sub-classes
Pixel c

Pixelc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Pixel

Pictorial that isthe smallest addressable element in a raster image, or the smallest addressable element in a dot matrix display device
has super-classes
Pictorial c
is in range of
has pixel representation op

Pointc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#Point

In classical Euclidean geometry, a point is a primitive notion that models an exact location in the space, and has no length, width, or thickness.
has super-classes
has sub-classes
Lattice Point c, Node c, Vector Origin c
is in domain of
has position vector op

Position Vectorc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#PositionVector

Euclidean vector that represents the position of a point P in space in relation to an arbitrary reference origin O.
has super-classes
Vector c
is in range of
has position vector op

propertyc back to ToC or Class ToC

IRI: https://w3id.org/mdo/core/Property

has super-classes
Quantity c
has sub-classes
calculated property c, physical property c

Quantityc back to ToC or Class ToC

IRI: http://qudt.org/schema/qudt/Quantity

Is defined by
http://qudt.org/2.0/schema/qudt
http://qudt.org/schema/qudt
has super-classes
has sub-classes
Length c, Vector Component of Basis c, property c

Quantity Kindc back to ToC or Class ToC

IRI: http://qudt.org/schema/qudt/QuantityKind

Is defined by
http://qudt.org/2.0/schema/qudt
http://qudt.org/schema/qudt

Quantity valuec back to ToC or Class ToC

IRI: http://qudt.org/schema/qudt/QuantityValue

Is defined by
http://qudt.org/2.0/schema/qudt
http://qudt.org/schema/qudt
has super-classes

Remesh Parameterc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#RemeshParameter

A simulation parameter related to remeshing the dislocation network.
has super-classes
DDD Simulation Parameter c
is in domain of
lmax dp, lmin dp, remesh frequency dp, remesh parameter activation dp

Screw Dislocationc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#ScrewDislocation

A dislocation that has a line sense parallel to its Burgers vector.
has super-classes
Dislocation c
is disjoint with
Edge Dislocation c

Segmentc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Segment

The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints.
has super-classes
is in domain of
has end node op, has node op, has start node op, is segment of op, segment ID dp
is in range of
has segment op
is disjoint with
Node c

Shape Functionc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#ShapeFunction

The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic.
has super-classes
is in domain of
shape function type dp
is in range of
has shape function op

Slip Directionc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection

The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors.
has super-classes
Lattice Direction c
is in range of
has slip direction op

Slip Planec back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane

The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced.
has super-classes
Lattice Plane c
is in domain of
active slip plane dp
is in range of
has slip plane op, moves on op

Slip Plane Normalc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal

The unit normal vector of slip planes.
has super-classes
Vector c
is in range of
has slip plane normal op

Slip Systemc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem

A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction.
has super-classes
is in range of
has slip system op

software agentc back to ToC or Class ToC

IRI: http://www.w3.org/ns/prov#SoftwareAgent

has super-classes
agent c
is in domain of
software repository dp

Solidc back to ToC or Class ToC

IRI: http://emmo.info/emmo#EMMO_a2b006f2_bbfd_4dba_bcaa_3fca20cd6be1

has sub-classes
Crystal c

Transmission Electron Microscopyc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy

Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick.
is disjoint with
Field Ion Microscopy c

Unitc back to ToC or Class ToC

IRI: http://qudt.org/schema/qudt/Unit

Is defined by
http://qudt.org/2.0/schema/qudt
http://qudt.org/schema/qudt

Vectorc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#Vector

(Euclidean) vector is used to represent quantities that both magnitude and direction.
has super-classes
has sub-classes
Burgers Vector c, Lattice Direction c, Position Vector c, Slip Plane Normal c

Vector Component of Basisc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#VectorComponentOfBasis

Vector components/vector coordinates of particular basis. It has relation to a specific basis.
has super-classes
Quantity c

Vector Originc back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#VectorOrigin

A fixed point that is needed by the vector to identify other points in the space relative to its origin.
has super-classes
Point c
is in domain of
vector origin ID dp
is in range of
has vector origin op

Object Properties

has basisop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#hasBasis

is inverse of
is basis of op

has Burgers vectorop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasBurgersVector

hasBurgersVector represents the relationship between dislocation to Burgers vector.
has domain
Dislocation c
has range
Burgers Vector c
is inverse of
is burgers vector of op

has crystal structureop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cdo#hasCrystalStructure

has crystallographic defectop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cdo#hasCrystallographicDefect

has domain
Crystalline Material c or Dislocation Structure c
has range
Crystallographic Defect c

has cubeop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasCube

hasCube represents the relationship between dislocation strcture and cube shape specimen.
has super-properties
has shape op
has domain
Dislocation Structure c
has range
Cube c
is inverse of
is cube of op

has end nodeop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasEndNode

Sub-property of hasNode that relates the segment with the end node.
has super-properties
has node op
has domain
Segment c
has range
Node c
is inverse of
is end node of op

has family crystal directionop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasFamilyCrystalDirection

hasFamilyCrystalDirection represents the relationship between lattice direction and family of crystal direction.
has domain
Lattice Direction c
has range
Family of Crystal Direction c
is inverse of
is family crystal direction of op

has family crystal planeop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasFamilyCrystalPlane

hasFamilyCrystalPlane represents the relationship between the lattice plane and the family of crystal planes.
has domain
Lattice Plane c
has range
Family of Crystal Plane c

has input dislocation structureop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasInputDislocationStructure

hasInputDislocationStructure represents the relationship between DDD simulation and its input of dislocation structure.
has super-properties
has input structure op
has domain
DDD Simulation c
has range
Dislocation Structure c
is inverse of
is input dislocation structure of op

has lattice directionop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection

hasLatticeDirection represents the relationship between a lattice or a lattice plane with lattice directions.
has sub-properties
has slip direction op
has domain
Lattice c or Lattice Plane c
has range
Lattice Direction c
is inverse of
is lattice direction of op

has lattice planeop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePlane

hasLatticePlane represents the relationship between a lattice and lattice planes.
has sub-properties
has slip plane op
has domain
Crystal Structure c or Lattice c
has range
Lattice Plane c
is inverse of
is lattice plane of op

has lattice pointop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint

hasLatticePoint represents the relationship between a lattice or lattice plane or lattice direction with lattice point.
has domain
Lattice c or Lattice Direction c or Lattice Plane c
has range
Lattice Point c
is inverse of
is lattice point of op

has lengthop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasLength

hasLength represents the relationship between 1-D, 2-D, and 3-D shape to length.
has range
Length c
is inverse of
is length of op

has line senseop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasLineSense

hasLineSense represents the relationship between dislocation and line sense.
has domain
Dislocation c
has range
Line Sense c
is inverse of
is line sense of op

has mathematical representationop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasMathematicalRepresentation

hasMathematicalRepresentation relates the entity with its mathematical representation.

has characteristics: functional

has super-properties
has representation op
has domain
Dislocation c
has range
Line c
is inverse of
is mathematical representation of op

has nodeop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasNode

hasNode represents the relationship between segment and node.
has sub-properties
has end node op, has start node op
has domain
Segment c
has range
Node c
is inverse of
is node of op

has numerical representationop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasNumericalRepresentation

hasNumericalRepresentation relates the entity with its numerical representation.

has characteristics: functional

has super-properties
has representation op
has domain
Line c
has range
Discretized Line c
is inverse of
is numerical representation of op

has output dislocation structureop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasOutputDislocationStructure

hasOutputDislocationStructure represents the relationship between DDD simulation and its output of dislocation structure.
has super-properties
has output structure op
has domain
DDD Simulation c
has range
Dislocation Structure c
is inverse of
is output dislocation structure of op

has pixel representationop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasPixelRepresentation

hasPixelRepresentation represents the relationship between mathematical line and Pixel.
has super-properties
has representation op
has domain
Line c
has range
Pixel c
is inverse of
is pixel representation of op

has position vectorop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#hasPositionVector

hasPositionVector represents the relationship between entity and position vector.
has domain
Point c
has range
Position Vector c

has representationop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasRepresentation

hasRepresentation relates the entity to another representation of entity.

has characteristics: transitive

has sub-properties
has mathematical representation op, has numerical representation op, has pixel representation op
has domain
thing c
has range
Discretized Line c or Line c
is inverse of
is representation of op

has segmentop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasSegment

hasSegment represents the relationship between discretized line and segment.
has domain
Discretized Line c
has range
Segment c
is inverse of
is segment of op

has shapeop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasShape

has sub-properties
has cube op
has domain
Dislocation Structure c
is inverse of
is shape of op

has shape functionop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasShapeFunction

hasShapeFunction represents the relationship between discretized line and shape function.
has domain
Discretized Line c
has range
Shape Function c
is inverse of
is shape function of op

has simulation parameterop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasSimulationParameter

hasSimulationParameter represents the relationship between DDD simulation and simulation parameter.
has domain
DDD Simulation c
has range
DDD Simulation Parameter c
is inverse of
is simulation parameter of op

has slip directionop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection

hasSlipDirection represents the relationship between the slip plane or slip system with the slip direction.
has super-properties
has lattice direction op
has domain
Slip Plane c or Slip System c
has range
Slip Direction c

has slip planeop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlane

hasSlipPlane represents the relationship between crystal structure and slip plane.
has super-properties
has lattice plane op
has domain
Crystal Structure c
has range
Slip Plane c

has slip plane normalop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal

hasSlipPlaneNormal represents the relationship between a slip plane or slip system with slip plane normal.
has domain
Slip Plane c or Slip System c
has range
Slip Plane Normal c
is inverse of
is slip plane normal of op

has slip systemop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasSlipSystem

hasSlipSystem represents the relationship between a crystal structure and slip system.
has domain
Crystal Structure c
has range
Slip System c
is inverse of
is slip system of op

has start nodeop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasStartNode

Sub-property of hasNode that relates the segment with the start node.
has super-properties
has node op
has domain
Segment c
has range
Node c
is inverse of
is start node of op

has vector originop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#hasVectorOrigin

hasVectorOrigin represents the relationship between lattice plane and origin.
has domain
Lattice Plane c
has range
Vector Origin c
is inverse of
is vector origin of op

hasPropertyop back to ToC or Object Property ToC

IRI: http://emmo.info/emmo#EMMO_e1097637_70d2_4895_973f_2396f04fa204

is basis ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/cso#isBasisOf

is inverse of
has basis op

is burgers vector ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isBurgersVectorOf

Inverse property of hasBurgersVector
is inverse of
has Burgers vector op

is cube ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isCubeOf

Inverse property of hasCube
is inverse of
has cube op

is end node ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isEndNodeOf

Inverse property of hasEndNode
is inverse of
has end node op

is family crystal direction ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isFamilyCrystalDirectionOf

Inverse property of hasFamilyCrystalDirection
is inverse of
has family crystal direction op

is family crystal plane ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isFamilyCrystalPlaneOf

Inverse property of hasFamilyCrystalPlane

is input dislocation structure ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isInputDislocationStructureOf

Inverse property of hasInputDislocationStructure
is inverse of
has input dislocation structure op

is lattice direction ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isLatticeDirectionOf

Inverse property of hasLatticeDirection
is inverse of
has lattice direction op

is lattice plane ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isLatticePlaneOf

Inverse property of hasLatticePlane
is inverse of
has lattice plane op

is lattice point ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isLatticePointOf

Inverse property of hasLatticePoint
is inverse of
has lattice point op

is length ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isLengthOf

Inverse property of hasLength
is inverse of
has length op

is line sense ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isLineSenseOf

Inverse property of hasLineSense
is inverse of
has line sense op

is mathematical representation ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isMathematicalRepresentationOf

Inverse property of hasMathematicalRepresentation
is inverse of
has mathematical representation op

is node ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isNodeOf

Inverse property of hasNode
is inverse of
has node op

is numerical representation ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isNumericalRepresentationOf

Inverse property of hasNumericalRepresentation
is inverse of
has numerical representation op

is output dislocation structure ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isOutputDislocationStructureOf

Inverse property of hasOutputDislocationStructure
is inverse of
has output dislocation structure op

is pixel representation ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isPixelRepresentationOf

Inverse property of hasPixelRepresentation
is inverse of
has pixel representation op

is related to structureop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isRelatedToStructure

Inverse property of relatesToCrystallineMaterial
is inverse of
relates to crystalline material op

is representation ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isRepresentationOf

Inverse property of hasRepresentation
is inverse of
has representation op

is resulted byop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isResultedBy

Inverse property of resultsIn
is inverse of
results in op

is segment ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isSegmentOf

Inverse of hasSegment
has domain
Segment c
has range
Discretized Line c
is inverse of
has segment op

is shape function ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isShapeFunctionOf

Inverse property of hasShapeFunction
is inverse of
has shape function op

is shape ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isShapeOf

Inverse property of hasShape
is inverse of
has shape op

is simulation parameter ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isSimulationParameterOf

Inverse property of hasSimulationParameter
is inverse of
has simulation parameter op

is slip plane normal ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isSlipPlaneNormalOf

Inverse property of hasSlipPlaneNormal
is inverse of
has slip plane normal op

is slip system ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isSlipSystemOf

Inverse property of hasSlipSystem
is inverse of
has slip system op

is start node ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isStartNodeOf

Inverse property of hasStartNode
is inverse of
has start node op

is vector origin ofop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isVectorOriginOf

Inverse property of hasVectorOrigin
is inverse of
has vector origin op

moves onop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#movesOn

movesOn represents the relationship between dislocation and slip plane.
has domain
Dislocation c
has range
Slip Plane c

observed byop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#observedBy

observedBy represents the relationship between dislocation and microscopy techniques, e.g., TEM, FIM, etc.
has domain
Dislocation c
has range
Field Ion Microscopy c or Transmission Electron Microscopy c
is inverse of
observes op

observesop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#observes

Inverse property of observedBy
is inverse of
observed by op

relates to crystalline materialop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#relatesToCrystallineMaterial

has domain
Crystal Structure c or Dislocation Structure c
has range
Crystalline Material c
is inverse of
is related to structure op

results inop back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#resultsIn

resultsIn represents the relationship between dislocation and lattice displacement.
has domain
Dislocation c
has range
Lattice Displacement c
is inverse of
is resulted by op

Data Properties

active slip planedp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#activeSlipPlane

activeSlipPlane represents the boolean value of whether the slip plane is active.
has domain
Slip Plane c
has range
boolean

cross slip parameter activationdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#crossSlipParameterActivation

has super-properties
parameter activation dp
has domain
Cross Slip c
has range
boolean

DDD Simulation IDdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#DDDSimulationID

DDDSimulationID represents the ID of a DDD simulation
has super-properties
i d dp
has domain
DDD Simulation c
has range
string

direction miller indicedp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#directionMillerIndice

directionMillerIndice represents Miller indice of lattice direction in string.
has domain
Lattice Direction c or Slip Plane Normal c
has range
string

discretized line IDdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#discretizedLineID

DiscretizedLineID represents the ID of a discretized (mathematical) line.
has super-properties
i d dp
has domain
Discretized Line c
has range
int

external load parameter activationdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#externalLoadParameterActivation

externalLoadParameterActivation represents the boolean value of whether the external load is active.
has super-properties
parameter activation dp
has domain
External Load Parameter c
has range
boolean

family direction miller indicedp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#familyDirectionMillerIndice

familyDirectionMillerIndice represents a set of miller indices of lattice direction in string.
has domain
Family of Crystal Direction c
has range
string

family plane miller indicedp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#familyPlaneMillerIndice

familyPlaneMillerIndice represents a set of Miller indice of lattice plane in string.
has domain
Family of Crystal Plane c
has range
string

FEM parameter activationdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#FEMParameterActivation

has super-properties
parameter activation dp

is relaxeddp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#isRelaxed

isRelaxed represents a boolean value whether a dislocation structure in the relaxed condition or no.
has domain
Dislocation Structure c
has range
boolean

junction formation parameter activationdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#junctionFormationParameterActivation

JunctinoFormationParameterActivation represents the boolean value of whether the junction formation is active.
has super-properties
parameter activation dp
has domain
Junction Formation c
has range
boolean

line sense directiondp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#lineSenseDirection

line sense direction in direction miller indice notation
has domain
Line Sense c
has range
string

lmaxdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Lmax

Remesh parameter of maximum segment length so that the segment will be remeshed.
has domain
Remesh Parameter c
has range
double

lmindp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#Lmin

Remesh parameter of minimum segment length so that the node in the dislocation network will be removed.
has domain
Remesh Parameter c
has range
double

mesh formatdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#meshFormat

meshFormat represents the format of mesh file, e.g., gmsh, mesh, etc.
has domain
DDD Simulation c
has range
string

node IDdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#nodeID

nodeID represents the ID of a segment node.
has super-properties
i d dp
has domain
Node c
has range
int

parameter activationdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#parameterActivation

has sub-properties
FEM parameter activation dp, cross slip parameter activation dp, external load parameter activation dp, junction formation parameter activation dp, remesh parameter activation dp
has domain
DDD Simulation Parameter c
has range
boolean

plane miller indicedp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#planeMillerIndice

planeMillerIndice represents Miller indice of lattice plane in string.
has domain
Lattice Plane c
has range
string

remesh frequencydp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#remeshFrequency

remeshFrequency represents the number of steps has to pass before doing the dislocation network remeshing.
has domain
Remesh Parameter c
has range
int

remesh parameter activationdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#remeshParameterActivation

remeshParameterActivation represents the boolean value of whether the network remeshing is active.
has super-properties
parameter activation dp
has domain
Remesh Parameter c
has range
boolean

segment IDdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#segmentID

segmentID represents the ID of a discretized line segment.
has super-properties
i d dp
has domain
Segment c
has range
int

shape function typedp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#shapeFunctionType

has domain
Shape Function c
has range
string

simulation boundary typedp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#simulationBoundaryType

has domain
DDD Simulation c
has range
string

simulation descriptiondp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#simulationDescription

simulation description of DDD simulation
has domain
DDD Simulation c
has range
string

simulation loading conditiondp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#simulationLoadingCondition

has domain
DDD Simulation c
has range
string

simulation step numberdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#simulationStepNumber

simulationStepNumber represents the step number of a DDD simulation.
has domain
DDD Simulation c
has range
int

simulation temperaturedp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#simulationTemperature

has domain
DDD Simulation c
has range
double

slip areadp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#slipArea

slipArea represents the slip area of discretized line in double.
has domain
Discretized Line c
has range
double

software namedp back to ToC or Data Property ToC

IRI: https://w3id.org/mdo/provenance/SoftwareName

software repositorydp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#softwareRepository

softwareRepository represents the URI/link to the software repository, e.g., GitHub, GitLab, etc.
has domain
software agent c
has range
anyURI

software versiondp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#softwareVersion

vector origin IDdp back to ToC or Data Property ToC

IRI: https://purls.helmholtz-metadaten.de/disos/diso#vectorOriginID

has domain
Vector Origin c
has range
int

Annotation Properties

contributorap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/contributor

createdap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/created

creatorap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/creator

defintionap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#defintion

descriptionap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/description

licenseap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/license

pref labelap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#prefLabel

preferred namespace prefixap back to ToC or Annotation Property ToC

IRI: http://purl.org/vocab/vann/preferredNamespacePrefix

titleap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/title

Legend back to ToC

c: Classes
op: Object Properties
dp: Data Properties

References back to ToC

Add your references here. It is recommended to have them as a list.

Acknowledgments back to ToC

The authors would like to thank Silvio Peroni for developing LODE, a Live OWL Documentation Environment, which is used for representing the Cross Referencing Section of this document and Daniel Garijo for developing Widoco, the program used to create the template used in this documentation.