BS EN 2562:1997 - Carbon fibre reinforced plastics. Unidirectional laminates. Flexural test parallel to the fibre direction

BS EN 2562:1997

Carbon fibre reinforced plastics. Unidirectional laminates. Flexural test parallel to the fibre direction

Status : Current   Published : August 1997

Format
PDF

Format
HARDCOPY






Standard NumberBS EN 2562:1997
TitleCarbon fibre reinforced plastics. Unidirectional laminates. Flexural test parallel to the fibre direction
StatusCurrent
Publication Date15 August 1997
Normative References(Required to achieve compliance to this standard)No other standards are normatively referenced
Informative References(Provided for Information)No other standards are informatively referenced
International RelationshipsEN 2562:1997
Draft Superseded By88/72264 DC
DescriptorsAir transport engineering, Carbon fibres, Reinforced materials, Plastics, Laminates, Tensile testing, Designations, Specimen preparation, Shape, Dimensions, Testing conditions, Test specimens, Bend testing
ICS49.025.40
Title in FrenchPlastiques renforces de fibres de carbone. Stratifies unidirectionnels. Essais de flexion parallele a la dirction des fibres
Title in GermanKohlenstoffaserverstaerkte Kunststoffe. Unidirektionale Laminate. Biegepruefung parallel zur Faserrichtung
CommitteeACE/65
ISBN0 580 26697 4
PublisherBSI
FormatA4
DeliveryYes
Pages14
File Size385.5 KB
Price£110.00


 Your basket
Your basket is empty

Multi-user access to over 3,500 medical device standards, regulations, expert commentaries and other documents


Worldwide Standards
We can source any standard from anywhere in the world


Develop a PAS

Develop a fast-track standardization document in 9-12 months


Tracked Changes

Understand the changes made to a standard with our new Tracked Changes version


Customers who bought this product also bought

  • BS EN 2561:1995
    Carbon fibre reinforced plastics. Undirectional laminates. Tensile test parallel to the fibre direction
  • BS EN 2563:1997
    Carbon fibre reinforced plastics. Unidirectional laminates. Determination of the apparent interlaminar shear strength