Designation E1434 – 00 (Reapproved 2006) Standard Guide for Recording Mechanical Test Data of Fiber Reinforced Composite Materials in Databases1 This standard is issued under the fixed designation E14[.]
Designation: E1434 – 00 (Reapproved 2006) Standard Guide for Recording Mechanical Test Data of Fiber-Reinforced Composite Materials in Databases1 This standard is issued under the fixed designation E1434; the number immediately following the designation indicates the year of original adoption or, in the case of revision, the year of last revision A number in parentheses indicates the year of last reapproval A superscript epsilon (´) indicates an editorial change since the last revision or reapproval Referenced Documents 2.1 ASTM Standards:3 D790 Test Methods for Flexural Properties of Unreinforced and Reinforced Plastics and Electrical Insulating Materials D3039/D3039M Test Method for Tensile Properties of Polymer Matrix Composite Materials D3410/D3410M Test Method for Compressive Properties of Polymer Matrix Composite Materials with Unsupported Gage Section by Shear Loading D3518/D3518M Test Method for In-Plane Shear Response of Polymer Matrix Composite Materials by Tensile Test of a 645° Laminate D3552 Test Method for Tensile Properties of Fiber Reinforced Metal Matrix Composites D3878 Terminology for Composite Materials D5229/D5229M Test Method for Moisture Absorption Properties and Equilibrium Conditioning of Polymer Matrix Composite Materials D5379/D5379M Test Method for Shear Properties of Composite Materials by the V-Notched Beam Method D5449/D5449M Test Method for Transverse Compressive Properties of Hoop Wound Polymer Matrix Composite Cylinders D5528 Test Method for Mode I Interlaminar Fracture Toughness of Unidirectional Fiber-Reinforced Polymer Matrix Composites D5961/D5961M Test Method for Bearing Response of Polymer Matrix Composite Laminates D6115 Test Method for Mode I Fatigue Delamination Growth Onset of Unidirectional Fiber-Reinforced Polymer Matrix Composites E6 Terminology Relating to Methods of Mechanical Testing E111 Test Method for Young’s Modulus, Tangent Modulus, and Chord Modulus E1309 Guide for Identification of Fiber-Reinforced Polymer-Matrix Composite Materials in Databases E1013 Terminology Relating to Computerized Systems Scope 1.1 This guide provides a common format for mechanical test data for composite materials for two purposes: (1) to establish data reporting requirements for test methods and (2) to provide information for the design of material property databases This guide should be used in combination with Guide E1309 which provides similar information to identify the composite material tested 1.2 These guidelines are specific to mechanical tests of high-modulus fiber-reinforced composite materials Types of tests considered in this guide include tension, compression, shear, flexure, open/filled hole,2 bearing, fracture toughness, and fatigue The ASTM standards for which this guide was developed are listed in 2.1 The guidelines may also be useful for additional tests or materials 1.3 This guide is the second part of a modular approach for which the first part is Guide E1309 Guide E1309 serves to identify the material, and this guide serves to describe mechanical testing procedures and variables and to record results The interaction of this guide with Guide E1309 is emphasized by the common numbering of data elements Data Elements A1 through G13 are included in Guide E1309 and numbering data elements in this guide begins with H1 1.4 This guide with Guide E1309 may be referenced by the data-reporting section of a test method to provide common data-reporting requirements for the types of tests listed in 1.2 1.5 From this information and Guide E1309, the database designer should be able to construct the data dictionary preparatory to developing a database schema 1.6 Data elements in this guide are relevant to test data, data as obtained in the test laboratory and historically recorded in lab notebooks Property data, data which have been analyzed and reviewed, require a different level of data elements Data elements for property data are provided in Annex A1 This guide is under the jurisdiction of ASTM Committee D30 on Composite Materials and is the direct responsibility of Subcommittee D30.01 on Editorial and Resource Standards Current edition approved Jan 15, 2006 Published January 2006 Originally approved in 1991 Last previous edition approved in 2000 as E1434 – 00 DOI: 10.1520/E1434-00R06 Documentation requirements for filled-hole tests were based on open-hole tests with the addition of fastener identification and application information For referenced ASTM standards, visit the ASTM website, www.astm.org, or contact ASTM Customer Service at service@astm.org For Annual Book of ASTM Standards volume information, refer to the standard’s Document Summary page on the ASTM website Copyright (C) ASTM International, 100 Barr Harbor Dr., PO Box C-700 West Conshohocken, Pennsylvania 19428-2959, United States E1434 – 00 (2006) (Discontinued 2000)4 E1443 Terminology Relating to Building and Accessing Material and Chemical Databases (Discontinued 2000)4 E1484 Guide for Formatting and Use of Material and Chemical Property Data and Database Quality Indicators (Discontinued 2000)4 IEEE/ASTM SI 10 Standard for Use of the International System of Units (SI): The Modern Metric System 2.2 Other Standards: ANSI X3.172–1996 Information Technology—American National Standard Dictionary of Information Technology (ANSDIT) CODATA A Glossary of Terms Relating to Data, Data Capture, Data Manipulation, and Databases, CODATA Bulletin, Vol 23, Nos 1–2, Jan.-June 19915 ISO 8601 Data Elements and Interchange Formats— Information Interchange—Representation of Dates and Times5 Recommended Method SRM 11R-94 SACMA Recommended Method for Environmental Conditioning of Composite Test Laminates6 Recommended Method SRM 1–88 SACMA Recommended Method for Compressive Properties of Oriented FiberResin Composites6 3.2.5 essential data element—a data element in a record that must be completed to make the record meaningful in accordance with the pertinent guidelines or standard (E1443) 3.2.5.1 Discussion—Data elements are considered essential if they are required to make a comparison of property data from different sources meaningful A comparison of data from different sources may still be possible if essential information is omitted, but the value of the comparison may be greatly reduced 3.2.6 value set—an open listing of representative acceptable strings that could be included in a particular field of a record (E1443) 3.2.6.1 Discussion—A closed listing of such strings is called a domain or category set 3.3 Other relevant terminology can be found in Terminologies E6 and E1013 Significance and Use 4.1 This guide provides recommended standard formats for the computerization of mechanical test data for a range of test methods for high-modulus fiber-reinforced composite materials The types of mechanical tests considered are tension, compression, shear, flexure, open/filled hole, bearing, fracture toughness, and fatigue The ASTM standards for which this guide was developed are listed in 2.1 The recommended formats are not limited in use to these test methods There are other test methods for which these recommended formats may be useful 4.2 Comparison of data from various sources will be most meaningful if all of the elements are available 4.3 The intent is to provide sufficient detail that values are known for the testing variables that may influence the results The motivation for this guide is the steadily increasing use of computerized databases However, this guide is equally appropriate for data stored in a hard-copy form 4.4 This format is for mechanical test data for high-modulus fiber-reinforced composites only It does not include the recommended material description or the presentation of other specific types of test data (such as fracture toughness test results) These items are covered by separate formats to be referenced in material specifications or other test standards Terminology 3.1 Definitions—Terminology in accordance with Terminologies D3878 and E1443 shall be used where applicable 3.2 Definitions of Terms Specific to This Standard: 3.2.1 composite material—a substance consisting of two or more materials, insoluble in one another, which are combined to form a useful engineering material possessing certain properties not possessed by the constituents 3.2.1.1 Discussion—A composite material is inherently inhomogeneous on a microscopic scale but can often be assumed to be homogeneous on a macroscopic scale for certain engineering applications The constituents of a composite retain their identities; they not dissolve or otherwise merge completely into each other, although they act in concert 3.2.2 data dictionary—a collection of the names of all data items used in a software system together with relevant properties of those items; for example, length of data item, mode of representation, and so forth (CODATA) 3.2.3 data element—one individual piece of information used in describing a material or to record test results, for example, a variable name, test parameter, and so forth 3.2.4 database schema—in a conceptual schema language, the definition of the representation forms and structure of a database for the possible collection of all sentences that are in the conceptual schema and in the information base, including manipulation aspects of these forms (ANSI X3.172) Data Reporting 5.1 This guide is intended to provide common datareporting requirements for the documents listed in 1.2 Each document will reference this guide and identify any usage specific to that document in the data-reporting section For example, Test Method D3410/D3410M requires that the transition strain be reported as the progressive damage parameter These requirements not mean that the information must be reported separately for each specimen Any data elements that are the same for a series of specimens may be reported once for the entire series, as long as it is clearly indicated that they apply to all specimens 5.2 The levels of requirement defined in Section and identified in Table apply to the data reporting for the appropriate test type: tension, compression, shear, flexure, open/filled hole, bearing, fracture toughness, and fatigue The cost of acquiring and storing the data documentation is Withdrawn The last approved version of this historical standard is referenced on www.astm.org Available from American National Standards Institute, 25 W 43rd St., 4th Floor, New York, NY 10036 Suppliers of Advanced Composite Materials, 1600 Wilson Blvd., Suite 901, Arlington, VA 22209 E1434 – 00 (2006) TABLE Data Elements for Mechanical Test Data of Fiber-Reinforced Composite Materials NOTE 1—ET = Essential for Test validation, EM = Essential for Material traceability, RT = Recommended for Test validity, RM = Recommended for Material traceability, and O = Optional No Data Element Name of Description Data Type or Standard Data Element Set Tension CompresShear sion Flexure Open/Filled Fracture Bearing Fatigue Hole Toughness Value Sets or Units H Test Method Block H1 H2 H3 H4 H5 H6 H7 Test property class Test method Test personnel Test facility Test facility address Type of test Property form type STRING [Test_Method] [Person] [Organization] [Address] STRING STRING Table —O— — ET — — ET — — ET — — ET — — RT — —O— Table Table I Specimen Preparation Block Specimen Preparation Subblock I1 Specimen orientation I2 Specimen labeling scheme I3 Specimen extraction technique I4 Coupon layout cutting plan reference I5 Specimen labeling method I6 Material sampling method I7 Ply count I8 Specimen geometry I9 Nominal specimen thickness I10 Nominal specimen width Nominal specimen overall length I11E111 I12 Nominal specimen gage length I13 Nominal specimen outer diameter I14 Nominal specimen inner diameter I15 Nominal wall thickness I16 Nominal specimen cross-sectional area I17 Nominal specimen notch radius (V-notch shear) I18 Nominal specimen notch angle (V-notch shear) I19 Nominal specimen gage section width (Vnotch shear) I20 Nominal hole diameter I21 Nominal width to diameter ratio I22 Nominal thickness to diameter ratio I23 Nominal edge distance ratio I24 Nominal pitch distance ratio I25 Nominal bypass ratio I26 Sandwich core common name I27 Sandwich core type I28 Sandwich core material I29 Sandwich core manufacturer I30 Sandwich core lot number I31 Sandwich core cell size I32 Sandwich core nominal density I33 Sandwich core ribbon thickness I34 Adhesive common name I35 Adhesive chemical family I36 Adhesive manufacturer I37 Adhesive lot number I38 Adhesive date of manufacture I39 Adhesive scrim common name I40 Adhesive scrim fabric style I41 Adhesive scrim sizing I42 Adhesive surface preparation REAL STRING STRING STRING STRING STRING INTEGER STRING REAL REAL REAL REAL REAL REAL REAL REAL REAL ET ET ET RM RM EM RM RT RT RT RT RT ET ET ET RT - ET ET ET RM RM EM RM RT RT RT RT RT ET ET ET RT - ET ET ET RM RM EM RM RT RT RT RT RT ET ET ET RT ET ET ET ET RM RM EM RM RT RT RT RT RT RT - ET ET ET RM RM EM RM RT RT RT RT - ET ET ET RM RM EM RM RT RT RT RT - ET ET ET RM RM EM RM RT RT RT RT - ET ET ET RM RM EM RM RT RT RT RT RT - degrees Table mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm2 (in.2) mm (in.) REAL - - ET - - - - - degrees REAL - - ET - - - - - mm (in.) REAL REAL REAL REAL REAL REAL STRING STRING STRING STRING STRING REAL REAL REAL STRING STRING STRING STRING STRING STRING STRING STRING STRING - ET ET ET ET RT ET ET RT ET ET ET RT RT RT RT RT RT - - ET ET ET - ET ET ET ET ET - - - mm (in.) Table Table Table mm (in.) g/cm3 mm (in.) NDE Subblock I43 I44 I45 I46 I47 NDE NDE NDE NDE NDE technique material form results criteria reference report STRING STRING STRING STRING STRING — — — — — Tab/Hinge/Loading-Block Subblock RM RM RM RM RM — — — — — Table Table 10 Table 11 E1434 – 00 (2006) TABLE No I48 I49 I50 I51 I52 I53 I54 I55 Data Element Name of Description Tab/hinge/loading-block material Tab/hinge/loading-block adhesive Nominal tab orientation Nominal tab thickness Nominal tab bevel angle Nominal tab length Tab adhesive curing temperature Tab adhesive curing time Data Type or Standard Data Element Set Tension STRING STRING REAL REAL REAL REAL REAL REAL ET ET ET ET ET RT RT RT Continued CompresShear sion ET ET ET ET ET RT RT RT ET ET ET ET ET RT RT RT Flexure Open/Filled Fracture Bearing Fatigue Hole Toughness - RT RT RT RT RT RT RT RT ET ET ET ET ET RT RT RT ET ET - ET ET ET ET ET RT RT RT Value Sets or Units degrees mm (in.) degrees mm (in.) C (F) J Specimen Conditioning Block J1 J2 J3 J4 J5 J6 J7 J8 J9 Specimen conditioning method (Number of conditioning steps) Conditioning temperature Conditioning parameter Conditioning parameter value Conditioning time Conditioning environment Traveler geometry Equilibrium condition [Test_Method] INTEGER REAL STRING REAL REAL STRING STRING STRING — — — — — — — — — ET ET ET ET ET ET ET ET ET — — — — — — — — — C (F) h Table 12 Table 13 K Test Equipment Block Test Machine Subblock K1 K2 K3 K4 K5 K6 K7 K8 K9 K10 K11 K12 K13 K14 K15 K16 K17 K18 K19 K20 K21 K22 K23 K24 K25 K26 K27 K28 K29 K30 K31 Type of fixture (grips) Test machine identification Actuator type Fixture identification Grip length Wedge angle Gripping surface Potting material identification Radius of potting material bead Potting material cure temperature Span-to-depth ratio Load-span to support-span ratio, nominal Radius of supports Radius of loading noses Equipment description Test machine calibration Fastener or pin type Fastener or pin material Fastener or pin diameter Pin hardness Pin surface roughness Hole clearance Countersink angle Countersink depth Grommet Mating material identification Mating material width Mating material thickness Mating material lay-up Number of fasteners Fastener or pin and coupon cleaning method STRING [Test_Equipment] STRING STRING REAL REAL STRING STRING REAL REAL REAL STRING REAL REAL STRING [Calibration] STRING STRING REAL STRING REAL REAL REAL REAL STRING STRING REAL REAL STRING INTEGER STRING ET RT RT RT RT RT RT ET ET ET RT RT - L1 L2 L3 L4 L5 L6 L7 L8 L9 L10 L11 Transducer type Transducer location on specimen Extensometer class Transducer manufacturer Transducer model number Timing of transducer application Transducer cure temperature Transducer cure time Transducer calibration Transducer lead-wire resistance correction Measured extensometer gage length STRING STRING STRING STRING STRING STRING REAL REAL [Calibration] REAL REAL ET ET ET RT RT O RT RT RT RT RT ET RT RT RT RT RT RT ET ET ET RT RT - ET RT RT RT RT RT RT ET ET ET ET RT RT - ET RT RT RT ET ET ET ET RT RT - ET RT RT RT RT RT RT RT RT ET ET ET ET ET ET - ET RT RT RT RT RT RT RT RT ET ET ET RT RT ET ET ET ET ET ET ET ET ET ET ET RT RT RT RT RT RT RT RT - ET RT RT RT RT RT RT RT RT - Table 14 ET ET ET RT RT O RT RT RT RT RT - - ET ET RT RT RT RT RT RT RT RT RT - ET ET ET RT RT RT RT RT RT RT Table 17 Table 18 ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET Table 15 mm (in.) degrees Table 16 mm (in.) C (F) mm (in.) mm (in.) mm (in.) mm (in.) degrees mm (in.) mm (in.) mm (in.) L Transducer Block ET ET ET RT RT O RT RT RT RT RT M Specimen Geometry Block M1 M2 M3 Number of specimens Specimen label Coupons meets test method requirements? INTEGER STRING LOGICAL ET ET ET ET ET ET ET ET ET C (F) mm (in.) E1434 – 00 (2006) TABLE Continued Value Sets or Units Data Type or Standard Data Element Set Tension REAL REAL REAL REAL REAL REAL REAL REAL REAL REAL STRING ET ET O RT ET ET ET ET - ET ET O RT RT ET ET ET RT RT ET ET RT RT ET ET ET RT RT ET ET RT RT RT RT ET ET O RT - ET ET ET - ET ET ET - ET ET ET RT ET RT RT mm (in.) mm (in.) mm (in.) vol% mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm2 (in.2) Table 19 REAL REAL REAL - - O O O - - - - - mm (in.) degrees mm (in.) M18 M19 M20 M21 M22 M23 M24 M25 M26 M27 M28 M29 Measured specimen thickness Maximum thickness variation Measured specimen width Measured specimen reinforcement volume Measured specimen overall length Measured specimen gage (span) length Measured specimen outer diameter Measured specimen inner diameter Measured wall thickness Specimen minimum cross-sectional area Method of finding minimum cross-sectional area Specimen notch radius (V-notch shear) Specimen notch angle (V-notch shear) Specimen gage section width (V-notch shear) Measured sandwich thickness Measured core thickness Measured opposite facesheet thickness Specimen hole diameter Specimen width to diameter ratio Specimen thickness to diameter ratio Specimen edge distance ratio Specimen pitch distance ratio Measured fastener or pin diameter Insert type Insert thickness Initial delamination length REAL REAL REAL REAL REAL REAL REAL REAL REAL STRING REAL REAL - ET ET ET - - - ET ET ET - ET ET ET ET ET - ET ET - ET ET ET N1 N2 N3 N4 N5 N6 N7 N8 N9 N10 Date of test Test environment Test temperature Test humidity Temperature of testing laboratory Relative humidity of testing laboratory Soak time at test conditions Moisture content before test Moisture content after test Nominal moisture state DATE STRING REAL REAL REAL REAL REAL REAL REAL STRING O1 Procedure for displacement/strain application Rate of displacement/strain application Fixture torque-up Jaw pressure Preload Data acquisition method Data acquisition sampling rate Fastener torque Fatigue test control parameter Fatigue frequency Fatigue waveform Loading parameter ratio Mean load Mean stress Mean strain Average number of fatigue transition loading Loading procedure Strength of control specimens—average Strength of control specimens—standard deviation Strength of control specimens—coefficient of variation Strain-to-failure of control specimens— average Strain-to-failure of control specimens— standard deviation Strain-to-failure of control specimens— coefficient of variation Maximum cyclic displacement No M4 M5 M6 M7 M8 M9 M10 M11 M12 M13 M14 M15 M16 M17 Data Element Name of Description CompresShear sion Flexure Open/Filled Fracture Bearing Fatigue Hole Toughness mm mm mm mm (in.) (in.) (in.) (in.) mm (in.) mm (in.) mm (in.) N Test Environment Block — ET — — ET — — ET — — ET — — RT— — RT— — RT — — RT — — RT — —O— Table 20 C (F) % C (F) % % % Table 21 O Loading Block O2 O3 O4 O5 O6 O7 O8 O9 O10 O11 O12 O13 O14 O15 O16 O17 O18 O19 O20 O21 O22 O23 O24 Table 22 REAL ET ET ET ET ET ET ET ET REAL REAL REAL REAL STRING REAL REAL STRING REAL STRING REAL REAL REAL REAL REAL STRING REAL REAL ET RT RT RT RT - ET ET RT RT RT RT - ET RT RT RT RT - ET RT RT RT - ET RT RT RT RT ET - ET RT RT RT RT ET - ET RT RT RT - RT RT RT ET ET ET ET ET ET ET ET ET ET ET MPa (ksi) MPa (ksi) REAL - - - - - - - ET % REAL - - - - - - - ET µ´ REAL - - - - - - - ET µ´ REAL - - - - - - - ET % REAL - - - - - - - ET mm (in.) (in.-lb) N (lb) N (lb) Table 23 (in.-lb) Table 24 Table 25 N (lb) MPa (ksi) µ´ E1434 – 00 (2006) TABLE No Data Element Name of Description Data Type or Standard Data Element Set Tension Continued CompresShear sion Flexure Open/Filled Fracture Bearing Fatigue Hole Toughness Value Sets or Units P Raw Data Block Failure Subblock P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11 P12 P13 P14 P15 Strength Strain offset Offset strength Method of linear fit for offset strength Initial strain for offset fit Final strain for offset fit Initial stress for offset fit Final stress for offset fit Initial peak strength Test truncated at % shear strain Maximum load Maximum deflection Strain at failure Failure location Failure mode REAL REAL REAL STRING REAL REAL REAL REAL REAL LOGICAL REAL REAL REAL STRING STRING ET RT ET ET ET ET REAL ET P17 Method of calculating modulus/stiffness P18 Fitting procedure for modulus/stiffness calculation P19 Initial strain for modulus/stiffness P20 Final strain for modulus/stiffness STRING STRING REAL REAL P21 P22 P23 P24 P25 Poisson’s ratio value Method of calculating Poisson’s ratio Fitting procedure for Poisson’s ratio Initial strain for Poisson’s ratio Final strain for Poisson’s ratio REAL STRING STRING REAL REAL P26 P27 P28 P29 P30 P31 Was bending strain measured? Initial strain for bending Final strain for bending Percent bending strain Satisfies bending strain requirement? Percent twist LOGICAL REAL REAL REAL LOGICAL REAL ET RT ET ET ET ET ET ET ET ET ET ET ET ET ET ET RT ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET RT - ET ET ET ET MPa (ksi) % MPa (ksi) ET ET ET - ET - - ET ET ET ET ET ET ET ET - ET ET - - GPa (Msi) Table 28 Table 29 ET ET ET ET ET ET ET ET - ET ET - - µ´ µ´ - - - - - Table 27 Table 28 µ´ µ´ - - - - ET ET ET ET ET - µ´ µ´ MPa (ksi) MPa (ksi) MPa (ksi) N (lb) mm (in.) µ´ Table 26 Table 27 Modulus Subblock P16 Modulus/stiffness Poisson’s Ratio Subblock ET ET ET ET ET ET ET ET ET ET - Bending Subblock (Table 29) ET ET ET ET ET - ET ET ET ET ET - ET ET ET ET ET ET µ´ µ´ % % Fracture Toughness Subblock P32 P33 P34 P35 P36 P37 Intercept Exponent Slope Fracture toughness—deviation from linearity Fracture toughness—visual observation Fracture toughness—5 % offset/maximum load P38 Method of calculating fracture toughness P39 Fracture toughness REAL REAL REAL REAL REAL REAL - - - - - - ET ET ET ET ET ET - mm (in.) STRING REAL - - - - - - ET ET - Table 30 kJ/m2 INTEGER - - - - - - - ET INTEGER - - - - - - - ET INTEGER REAL REAL REAL STRING STRING - - - - - - - ET ET ET ET ET ET - ET ET ET ET ET ET ET ET ET ET ET ET kJ/m2 kJ/m2 kJ/m2 Fatigue Subblock P40 Number of cycles to % compliance increase P41 Number of cycles to % compliance increase P42 Number of cycles to failure P43 Peak test control parameter P44 Valley test control parameter P45 Load/strain ratio P46 Condition leading to failure P47 Failure criterion Table 31 Table 32 Tabulated/Graphical Data Subblock (see Table 33) P48 P49 P50 P51 P52 Tabulated data reference Tabulated data independent variable Tabulated data dependent variable Graphical data reference Graphical data independent variable STRING STRING STRING STRING STRING ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET Table 34 Table 34 Table 34 E1434 – 00 (2006) TABLE Continued Value Sets or Units Data Type or Standard Data Element Set Tension Graphical data dependent variable Curve-fitting method Curve-fitting equation Curve-fitting parameter Curve-fitting parameter value Progressive damage parameter Progressive damage parameter value Progressive damage parameter method of fit P61 Progressive damage parameter initial strain P62 Progressive damage parameter final strain P63 Footnotes STRING STRING STRING STRING REAL STRING REAL STRING ET RT RT RT RT RT S RT ET RT RT RT RT - ET RT RT RT RT RT S RT ET RT RT RT RT RT S - - ET RT RT RT RT - ET RT RT RT RT - ET - Table 34 REAL REAL STRING RT RT ET ET RT RT ET ET ET ET ET ET µ´ µ´ Q1 Q2 Q3 Q4 Q5 Q6 STRING REAL REAL REAL REAL REAL - ET ET O ET S S - - - Table 36 mm (in.) g/m2 vol% MPa (ksi) GPa (Msi) No Data Element Name of Description P53 P54 P55 P56 P57 P58 P59 P60 CompresShear sion Flexure Open/Filled Fracture Bearing Fatigue Hole Toughness Table 35 Q Normalized Data Block Data normalization method Baseline cured ply thickness Baseline fiber areal weight Baseline fiber volume Normalized strength Normalized modulus value ET ET O ET S S ET ET O ET S S - R Statistical Analysis Block Specimen Statistical Parameters Subblock R1 R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 Specimen Specimen Specimen Specimen Specimen Specimen Specimen Specimen tion Specimen Specimen Specimen Specimen Specimen notch) width—average width—coefficient of variation thickness—average thickness—coefficient of variation length—average length—coefficient of variation gage length—average gage length—coefficient of varia- REAL REAL REAL REAL REAL REAL REAL REAL ET RT ET RT ET RT ET RT ET RT ET RT ET RT ET RT ET RT ET RT ET RT ET RT ET RT ET RT RT RT ET RT ET RT ET RT ET RT - - ET RT ET RT - O O O O O O cross-sectional area—average fiber volume—average notch radius—average (V-notch) notch angle—average (V-notch) gage section width—average (V- REAL REAL REAL REAL REAL RT RM - RT RM - RT RM O O O RT RM - RT RM - - - O - mm mm mm mm mm mm mm mm (in.) (in.) (in.) (in.) (in.) (in.) (in.) (in.) mm2 (in.2) vol% mm (in.) degrees mm (in.) Testing Summary Subblock R14 R15 R16 R17 R18 Date of test completion—ensemble Test temperature—ensemble Test humidity—ensemble Moisture content before testing—average Moisture content after testing—average DATE REAL REAL REAL REAL ET ET ET ET RT R19 R20 R21 R22 R23 Strength—number of valid measurements Strength—average Strength—standard deviation Strength—coefficient of variation Offset strength—number of valid measurements Offset strength—average Offset strength—standard deviation Offset strength—coefficient of variation Maximum cyclic strain energy release rate INTEGER REAL REAL REAL INTEGER ET ET O ET - ET ET O ET - ET ET O ET ET ET ET O ET ET ET ET O ET - ET ET O ET ET - - REAL REAL REAL REAL - - ET O ET - ET O ET - - ET O ET - ET - R28 Strain at failure—number of valid measurements R29 Strain at failure—average R30 Strain at failure—standard deviation R31 Strain at failure-coefficient of variation R32 Was bending strain measured? R33 Percent bending strain—average INTEGER ET ET ET ET - ET - - REAL REAL REAL LOGICAL REAL ET O ET ET ET ET O ET ET ET ET O ET ET ET ET O ET - - ET O ET - - - ET - ET - - C (F) % % % Strength Statistical Parameter Subblock R24 R25 R26 R27 MPa (ksi) MPa (ksi) % MPa (ksi) MPa (ksi) % Strain Statistical Parameter Subblock Modulus Statistical Parameter Subblock R34 Modulus/stiffness—number of valid measurements INTEGER ET ET ET µ´ µ´ % % E1434 – 00 (2006) TABLE Continued Value Sets or Units Data Type or Standard Data Element Set Tension R35 Modulus/stiffness—average REAL ET ET ET ET - ET - - R36 Modulus/stiffness—standard deviation REAL O O O O - O - - REAL STRING STRING ET ET ET ET ET ET ET ET ET ET ET ET - ET ET ET - - GPa (Msi) GPa (Msi) % Table 29 Table 30 REAL REAL ET ET ET ET ET ET ET ET - ET ET - - µ´ µ´ No Data Element Name of Description R37 Modulus/stiffness—coefficient of variation R38 Method of calculating modulus/stiffness R39 Fitting procedure for modulus/stiffness calculation R40 Initial strain for modulus/stiffness R41 Final strain for modulus/stiffness CompresShear sion Flexure Open/Filled Fracture Bearing Fatigue Hole Toughness Poisson’s Ratio Statistical Parameter Subblock R42 Poisson’s ratio—number of valid measurements R43 Poisson’s ratio—average R44 Poisson’s ratio—standard deviation R45 Poisson’s ratio—coefficient of variation R46 Method of calculating Poisson’s ratio R47 Fitting procedure for Poisson’s ratio calculation R48 Initial strain for Poisson’s ratio R49 Final strain for Poisson’s ratio INTEGER ET ET - - - - - - REAL REAL REAL STRING STRING ET O ET ET ET ET O ET ET ET - - - - - - % Table 29 Table 30 REAL REAL ET ET ET ET - - - - - - µ´ µ´ Tabulated/Graphical Data Ensemble Subblock R50 R51 R52 R53 R54 R55 R56 R57 R58 R59 R60 R61 Tabulated data reference Tabulated data independent variable Tabulated data dependent variable Graphical data reference Graphical data independent variable Graphical data dependent variable Curve fitting method Curve fitting equation Curve fitting parameter Curve fitting parameter value Progressive damage parameter—ensemble Progressive damage parameter value— average R62 Progressive damage parameter value— coefficient of variation STRING STRING STRING STRING STRING STRING STRING STRING STRING REAL STRING REAL ET ET ET ET ET ET ET ET ET ET RT RT ET ET ET ET ET ET ET ET ET ET - ET ET ET ET ET ET ET ET ET ET RT RT ET ET ET ET ET ET ET ET ET ET - - ET ET ET ET ET ET ET ET ET ET RT RT ET ET ET - ET ET ET ET ET ET ET ET ET ET - REAL RT - RT - - RT - - R63 R64 R65 R66 STRING STRING STRING STRING ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET ET Table 34 Table 34 Table 34 Table 34 Table 35 Summary - Ensemble Subblock Failure location—ensemble Failure mode—ensemble Data quality indicator—ensemble Footnotes—ensemble ET ET ET ET ET ET ET ET ET ET ET ET TABLE Value Set for Test Property Class Mechanical Fracture toughness TABLE Value Set for Property Form Type Fatigue Lamina TABLE Value Set for Type of Test Tension Compression Shear Flexure Open hole tension Open hole compression Table 27 Table 28 Laminate TABLE Value Set for Specimen Extraction Technique Filled hole Tension Filled hole compression Bearing Toughness Fatigue Machined Machined and ground As fabricated Wet diamond saw TABLE Value Set for Material Sampling Method End of roll Beginning and end of roll recognized Less extensive data reporting requirements may be established for a given program or purpose upon agreement of the parties involved 5.3 In some cases, a data element may be considered essential or required depending on the value in another data element For example, if Data Element H13, the method of Beginning of roll calculating modulus, is “Tangent,” then Data Element H15, the initial strain for the modulus calculation is required (ET) In this case, Data element H16, the final strain for the modulus calculation, is not required This dependence is shown in Table E1434 – 00 (2006) TABLE Value Set for Specimen Geometry Cylinder Rectangular, flat Sandwich beam TABLE 14 Value Set for Fixture or Grips Rectangular, arc segment Ring Compression: Celanese-type IITRI-type Four-point bend SACMA SRM 1-88 TABLE Value Set for Sandwich Core Type Honeycomb Close-cell foam Open-cell foam Tension: Wedge Hydraulic Pneumatic Shear: Three-point bend Wedge tensile Hydraulic tensile Two-rail Three-rail V-notch Flexure: Three-point bend Four-point bend TABLE 15 Value Set for Actuator Type Servohydraulic Screw-driven TABLE Value Set for NDE Technique Acoustic emission Shearography Thermography Ultrasonic Visual X-ray TABLE 16 Value Set for Gripping Surface Smooth Flame/plasma-sprayed abrasive grit File-cut serrations, (fine or coarse) Cross-hatched serrations, (fine or coarse) TABLE 10 Value Set for NDE Material Form Component Subpanel Panel Tube TABLE 17 Value Set for Transducer Type Specimen Strain gage LVDT TABLE 11 Value Set for NDE Results Passed Extensive microcracks Excessive voids Passed, unrestricted Passed, restricted Failed Strain gage extensometer DCDT TABLE 18 Value Set for Transducer Location Mid-gage, face-mounted, dual transducers Mid-gage, edge-mounted, dual transducers Mid-gage/mid-span, face-mounted, single transducer Mid-gage/mid-span, edge-mounted, single transducer TABLE 12 Value Set for Conditioning Environment (Laboratory air, [fill-in-blank gas]) in still oven Laboratory air ] (Laboratory air, [fill-in-blank gas]) in convection oven Humidity chamber TABLE 19 Value Set for Method of Finding Minimum CrossSectional Area Minimum thickness minimum width Average thickness average width Average area Minimum area Nominal area TABLE 13 Value Set for Equilibrium Condition Values in Value Sets Nonequilibrium fixed-time conditioning D5229/D5229M equilibrium SACMA RM 11R-94 equilibrium MIL-HDBK-17DA equilibrium Description TABLE 20 Value Set for Test Environment Laboratory air