Dislocation Ontology

Classes

Burgers Vector^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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

Crystal Structure^c back to ToC or Class ToC

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

A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell.

has super-classes: (has slip plane^op some Slip Plane^c) and (has slip plane^op only Slip Plane^c); (has slip system^op some Slip System^c) and (has slip system^op only Slip System^c)
is in domain of: has slip plane^op, has slip system^op

Crystallographic Defect^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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: thing^c
has sub-classes: Line Defect^c

Discretized Line^c back to ToC or Class ToC

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

The numerical representation of the dislocation line that is discretized into the number of segments.

has super-classes: has segment^op only Segment^c; has shape function^op only Shape Function^c; slipArea^dp exactly 1
is in domain of: has segment^op, has shape function^op, slipArea^dp
is in range of: has numerical representation^op, is segment of^op
is disjoint with: Line^c

Dislocation^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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 Burgers vector^op some Burgers Vector^c) and (has Burgers vector^op only Burgers Vector^c); (has line sense^op some Line Sense^c) and (has line sense^op only Line Sense^c); has mathematical representation^op some Line^c; moves on^op some Slip Plane^c; observed by^op some Field Ion Microscopy^c; observed by^op some Transmission Electron Microscopy^c; results in^op some Lattice Displacement^c
has sub-classes: Edge 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

Edge Dislocation^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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

Family of Crystal Direction^c back to ToC or Class ToC

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

A set of symmetrically equivalent directions in the lattice.

has super-classes: family direction miller indice^dp exactly 1
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 Plane^c back to ToC or Class ToC

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

A set of symmetrically equivalent planes in the lattice.

has super-classes: family plane miller indice^dp exactly 1
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 Microscopy^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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

Lattice^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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: (has lattice direction^op some Lattice Direction^c) and (has lattice direction^op only Lattice Direction^c); (has lattice plane^op some Lattice Plane^c) and (has lattice direction^op only Lattice Direction^c); (has lattice point^op some Lattice Point^c) and (has lattice point^op only Lattice Point^c)

Lattice Direction^c back to ToC or Class ToC

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

The vector direction inside the lattice that is connecting two lattice points.

has super-classes: Vector^c; Family of Crystal Direction^c; (has lattice point^op some Lattice Point^c) and (has lattice point^op only Lattice Point^c); direction miller indice^dp exactly 1
has sub-classes: Slip Direction^c
is in domain of: has family crystal direction^op
is in range of: has lattice direction^op

Lattice Displacement^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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 Plane^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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 lattice direction^op some Lattice Direction^c) and (has lattice direction^op only Lattice Direction^c); (has lattice point^op some Lattice Point^c) and (has lattice point^op only Lattice Point^c); has vector origin^op only Vector Origin^c; plane miller indice^dp exactly 1
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 Point^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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

Line^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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: thing^c; has numerical representation^op some Discretized Line^c
is in domain of: has numerical representation^op
is in range of: has mathematical representation^op
is disjoint with: Discretized Line^c, Node^c

Line Defect^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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 Sense^c back to ToC or Class ToC

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

A sense that characterizes a directed line, i.e., it has a start and an end.

is in range of: has line sense^op

Node^c back to ToC or Class ToC

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

A point of a segment.

has super-classes: Point^c
is in range of: has end node^op, has node^op, has start node^op
is disjoint with: Line^c, Segment^c

Point^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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 position vector^op only Position Vector^c
has sub-classes: Lattice Point^c, Node^c, Vector Origin^c
is in domain of: has position vector^op

Position Vector^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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

Screw Dislocation^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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

Segment^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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: has end node^op only Node^c; has start node^op only Node^c; is segment of^op only Discretized Line^c
is in domain of: has end node^op, has node^op, has start node^op, is segment of^op
is in range of: has segment^op
is disjoint with: Node^c

Shape Function^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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.

is in range of: has shape function^op

Slip Direction^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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 Plane^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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; (has slip direction^op some Slip Direction^c) and (has slip direction^op only Slip Direction^c); (has slip plane normal^op some Slip Plane Normal^c) and (has slip plane normal^op only Slip Plane Normal^c)
is in range of: has slip plane^op, moves on^op

Slip Plane Normal^c back to ToC or Class ToC

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

The unit normal vector of slip planes.

has super-classes: Vector^c; direction miller indice^dp exactly 1
is in range of: has slip plane normal^op

Slip System^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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: (has slip direction^op some Slip Direction^c) and (has slip direction^op only Slip Direction^c); (has slip plane normal^op some Slip Plane Normal^c) and (has slip plane normal^op only Slip Plane Normal^c)
is in range of: has slip system^op

Transmission Electron Microscopy^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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

Vector^c back to ToC or Class ToC

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

(Euclidean) vector is used to represent quantities that both magnitude and direction.

has super-classes: thing^c
has sub-classes: Burgers Vector^c, Lattice Direction^c, Position Vector^c, Slip Plane Normal^c

Vector Origin^c back to ToC or Class ToC

IRI: https://purls.helmholtz-metadaten.de/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 range of: has vector origin^op

Object Properties

has Burgers vector^op back to ToC or Object Property ToC

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

hasBurgersVector represents the relationship between dislocation to Burgers vector.

has domain: Dislocation^c
has range: Burgers Vector^c

has end node^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

has family crystal direction^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

has family crystal plane^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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 lattice direction^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

has lattice plane^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

has lattice point^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

has line sense^op back to ToC or Object Property ToC

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

hasLineSense represents the relationship between dislocation and line sense.

has domain: Dislocation^c
has range: Line Sense^c

has mathematical representation^op back to ToC or Object Property ToC

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

hasMathematicalRepresentation relates the entity with its mathematical representation.

has super-properties: has representation^op
has domain: Dislocation^c
has range: Line^c

has node^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

has numerical representation^op back to ToC or Object Property ToC

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

hasNumericalRepresentation relates the entity with its numerical representation.

has super-properties: has representation^op
has domain: Line^c
has range: Discretized Line^c

has position vector^op back to ToC or Object Property ToC

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

hasPositionVector represents the relationship between entity and position vector.

has domain: Point^c
has range: Position Vector^c

has representation^op back to ToC or Object Property ToC

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

hasRepresentation relates the entity to another representation of entity.

has sub-properties: has mathematical representation^op, has numerical representation^op
has domain: thing^c
has range: Discretized Line^c or Line^c

has segment^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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 shape function^op back to ToC or Object Property ToC

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

hasShapeFunction represents the relationship between discretized line and shape function.

has domain: Discretized Line^c
has range: Shape Function^c

has slip direction^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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 plane^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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 normal^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

has slip system^op back to ToC or Object Property ToC

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

hasSlipSystem represents the relationship between a crystal structure and slip system.

has domain: Crystal Structure^c
has range: Slip System^c

has start node^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

has vector origin^op back to ToC or Object Property ToC

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

hasVectorOrigin represents the relationship between lattice plane and origin.

has domain: Lattice Plane^c
has range: Vector Origin^c

is segment of^op back to ToC or Object Property ToC

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

Inverse of hasSegment

has domain: Segment^c
has range: Discretized Line^c
is inverse of: has segment^op

moves on^op back to ToC or Object Property ToC

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

movesOn represents the relationship between dislocation and slip plane.

has domain: Dislocation^c
has range: Slip Plane^c

observed by^op back to ToC or Object Property ToC

IRI: https://purls.helmholtz-metadaten.de/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

results in^op back to ToC or Object Property ToC

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

resultsIn represents the relationship between dislocation and lattice displacement.

has domain: Dislocation^c
has range: Lattice Displacement^c

This HTML document was obtained by processing the OWL ontology source code through LODE, Live OWL Documentation Environment, developed by Silvio Peroni .

Dislocation Ontology

Table of Content

Classes

Burgers Vectorc back to ToC or Class ToC

Crystal Structurec back to ToC or Class ToC

Crystallographic Defectc back to ToC or Class ToC

Discretized Linec back to ToC or Class ToC

Dislocationc back to ToC or Class ToC

Edge Dislocationc back to ToC or Class ToC

Family of Crystal Directionc back to ToC or Class ToC

Family of Crystal Planec back to ToC or Class ToC

Field Ion Microscopyc back to ToC or Class ToC

Latticec back to ToC or Class ToC

Lattice Directionc back to ToC or Class ToC

Lattice Displacementc back to ToC or Class ToC

Lattice Planec back to ToC or Class ToC

Lattice Pointc back to ToC or Class ToC

Linec back to ToC or Class ToC

Line Defectc back to ToC or Class ToC

Line Sensec back to ToC or Class ToC

Nodec back to ToC or Class ToC

Pointc back to ToC or Class ToC

Position Vectorc back to ToC or Class ToC

Screw Dislocationc back to ToC or Class ToC

Segmentc back to ToC or Class ToC

Shape Functionc back to ToC or Class ToC

Slip Directionc back to ToC or Class ToC

Slip Planec back to ToC or Class ToC

Slip Plane Normalc back to ToC or Class ToC

Slip Systemc back to ToC or Class ToC

Transmission Electron Microscopyc back to ToC or Class ToC

Vectorc back to ToC or Class ToC

Vector Originc back to ToC or Class ToC

Object Properties

has Burgers vectorop back to ToC or Object Property ToC

has end nodeop back to ToC or Object Property ToC

has family crystal directionop back to ToC or Object Property ToC

has family crystal planeop back to ToC or Object Property ToC

has lattice directionop back to ToC or Object Property ToC

has lattice planeop back to ToC or Object Property ToC

has lattice pointop back to ToC or Object Property ToC

has line senseop back to ToC or Object Property ToC

has mathematical representationop back to ToC or Object Property ToC

has nodeop back to ToC or Object Property ToC

has numerical representationop back to ToC or Object Property ToC

has position vectorop back to ToC or Object Property ToC

has representationop back to ToC or Object Property ToC

has segmentop back to ToC or Object Property ToC

has shape functionop back to ToC or Object Property ToC

has slip directionop back to ToC or Object Property ToC

has slip planeop back to ToC or Object Property ToC

has slip plane normalop back to ToC or Object Property ToC

has slip systemop back to ToC or Object Property ToC

has start nodeop back to ToC or Object Property ToC

has vector originop back to ToC or Object Property ToC

is segment ofop back to ToC or Object Property ToC

moves onop back to ToC or Object Property ToC

observed byop back to ToC or Object Property ToC

results inop back to ToC or Object Property ToC

Data Properties

direction miller indicedp back to ToC or Data Property ToC

family direction miller indicedp back to ToC or Data Property ToC

family plane miller indicedp back to ToC or Data Property ToC

plane miller indicedp back to ToC or Data Property ToC

slipAreadp back to ToC or Data Property ToC

Annotation Properties

contributorap back to ToC or Annotation Property ToC

createdap back to ToC or Annotation Property ToC

creatorap back to ToC or Annotation Property ToC

licenseap back to ToC or Annotation Property ToC

preferred namespace prefixap back to ToC or Annotation Property ToC

titleap back to ToC or Annotation Property ToC

Namespace Declarations back to ToC