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The Resource Pendulum impact testing : a century of progress, Thomas A. Siewert and Michael P. Manahan, editors

Pendulum impact testing : a century of progress, Thomas A. Siewert and Michael P. Manahan, editors

Label
Pendulum impact testing : a century of progress
Title
Pendulum impact testing
Title remainder
a century of progress
Statement of responsibility
Thomas A. Siewert and Michael P. Manahan, editors
Contributor
Subject
Genre
Language
eng
Member of
Cataloging source
DLC
Dewey number
620.1/125
Illustrations
illustrations
Index
index present
LC call number
TA418.34
LC item number
.P463 2000
Literary form
non fiction
Nature of contents
bibliography
http://library.link/vocab/relatedWorkOrContributorDate
1953-
http://library.link/vocab/relatedWorkOrContributorName
  • Siewert, T. A
  • Manahan, Michael P.
Series statement
STP
Series volume
1380
http://library.link/vocab/subjectName
  • Materials
  • Impact
  • Notched bar testing
  • Testing-machines
Label
Pendulum impact testing : a century of progress, Thomas A. Siewert and Michael P. Manahan, editors
Instantiates
Publication
Note
"ASTM Stock Number: STP1380."
Bibliography note
Includes bibliographical references and indexes
Carrier category
volume
Carrier category code
nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • G. Charpy
  • 46
  • Reference Energies, Machine Stability, and Calibration
  • International Comparison of Impact Verification Programs
  • C. N. McCowan, J. Pauwels, G. Revise, H. Nakano
  • 73
  • European Certification of Charpy Specimens: Reasoning and Observations
  • J. Pauwels, D. Gyppaz, R. Varma, C. Ingelbrecht
  • 90
  • Stability of a C-type Impact Machine Between Calibrations
  • Background of Impact Testing
  • M. Sundqvist, G. Chai
  • 100
  • Indirect Verification of Pendulum Impact Test Machines: The French Subsidiary from Its Origins to the Present, Changes in Indirect Verification Methods, Effects on Dispersion, and Perspectives
  • G. Galban, G. Revise, D. Mougin, S. Laporte, S. Lefrancois
  • 109
  • Maintaining the Accuracy of Charpy Impact Machines
  • D. P. Vigliotti, T. A. Siewert, C. N. McCowan
  • 134
  • Characterizing Material Properties by the Use of Full-Size and Subsize Charpy Tests: An Overview of Different Correlation Procedures
  • E. Lucon, R. Chaouadi, A. Fabry, J.-L. Puzzolante, E. Van Walle
  • The History and Importance of Impact Testing
  • 146
  • Effects of Anvil Configurations on Absorbed Energy
  • Y. Yamaguchi, S. Takagi, H. Nakano
  • 164
  • The Difference Between Total Absorbed Energy Measured Using an Instrumented Striker and That Obtained Using an Optical Encoder
  • M. P. Manahan, Sr., R. B. Stonesifer
  • 181
  • On the Accuracy of Measurement and Calibration of Load Signal in the Instrumented Charpy Impact Test
  • T. Kobayashi, N. Inoue, S. Morita, H. Toda
  • 198
  • T. A. Siewert, M. P. Manahan, C. N. McCowan, J. M. Holt, F. J. Marsh, E. A. Ruth
  • Evaluation of ABS Plastic Impact Verification Specimens
  • C. N. McCowan, D. P. Vigliotti, T. A. Siewert
  • 210
  • Impact Test Procedures
  • Results of the ASTM Instrumented/Miniaturized Round Robin Test Program
  • M. P. Manahan, Sr., F. J. Martin, R. B. Stonesifer
  • 223
  • European Activity on Instrumented Impact Testing of Subsize Charpy V-Notch Specimens (ESIS TC5)
  • E. Lucon
  • 242
  • 3
  • Dynamic Force Calibration for Measuring Impact Fracture Toughness using the Charpy Testing Machine
  • K. Kishimoto, H. Inoue, T. Shibuya
  • 253
  • Low Striking Velocity Testing of Precracked Charpy-type Specimens
  • T. Varga, F. Loibnegger
  • 267
  • In-Situ Heating and Cooling of Charpy Test Specimens
  • M. P. Manahan, Sr.
  • 286
  • The Effects of OD Curvature and Sample Flattening on Transverse Charpy V-Notch Impact Toughness of High Strength Steel Tubular Products
  • Experiments with a New Machine for Testing Materials by Impact Transactions of the American Society of Civil Engineers, Vol. 39, June 1898, p. 237
  • George Waid, Harry Zantopulos
  • 298
  • Electron Beam Welded Charpy Test Specimen for Greater Functionality
  • Rob Hughes, Brian Dixon
  • 310
  • Fracture Toughness Assessment from Impact Test Data
  • Application of Single-Specimen Methods on Instrumented Charpy Tests: Results of DVM Round-Robin Exercises
  • W. Bohme, H.-J. Schindler
  • 327
  • Relation Between Fracture Toughness and Charpy Fracture Energy: An Analytical Approach
  • S. Bent Russell
  • H.-J. Schindler
  • 337
  • Use of Instrumented Charpy Test for Determination of Crack Initiation Toughness
  • H.-W. Viehrig, J. Boehmert, H. Richter, M. Valo
  • 354
  • On the Determination of Dynamic Fracture Toughness Properties by Instrumented Impact Testing
  • G. B. Lenkey
  • 366
  • Estimation of NDT and Crack-Arrest Toughness from Charpy Force-Displacement Traces
  • M. Sokolov, J. G. Merkle
  • 17
  • 382
  • Essay on the Metals Impact Bend Test of Notched Bars Soc. Ing. de Francais, June 1901, p. 848
Control code
43798500
Dimensions
24 cm
Extent
x, 399 pages
Isbn
9780803128644
Lccn
00038123
Media category
unmediated
Media MARC source
rdamedia
Media type code
n
Other physical details
illustrations
Label
Pendulum impact testing : a century of progress, Thomas A. Siewert and Michael P. Manahan, editors
Publication
Note
"ASTM Stock Number: STP1380."
Bibliography note
Includes bibliographical references and indexes
Carrier category
volume
Carrier category code
nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • G. Charpy
  • 46
  • Reference Energies, Machine Stability, and Calibration
  • International Comparison of Impact Verification Programs
  • C. N. McCowan, J. Pauwels, G. Revise, H. Nakano
  • 73
  • European Certification of Charpy Specimens: Reasoning and Observations
  • J. Pauwels, D. Gyppaz, R. Varma, C. Ingelbrecht
  • 90
  • Stability of a C-type Impact Machine Between Calibrations
  • Background of Impact Testing
  • M. Sundqvist, G. Chai
  • 100
  • Indirect Verification of Pendulum Impact Test Machines: The French Subsidiary from Its Origins to the Present, Changes in Indirect Verification Methods, Effects on Dispersion, and Perspectives
  • G. Galban, G. Revise, D. Mougin, S. Laporte, S. Lefrancois
  • 109
  • Maintaining the Accuracy of Charpy Impact Machines
  • D. P. Vigliotti, T. A. Siewert, C. N. McCowan
  • 134
  • Characterizing Material Properties by the Use of Full-Size and Subsize Charpy Tests: An Overview of Different Correlation Procedures
  • E. Lucon, R. Chaouadi, A. Fabry, J.-L. Puzzolante, E. Van Walle
  • The History and Importance of Impact Testing
  • 146
  • Effects of Anvil Configurations on Absorbed Energy
  • Y. Yamaguchi, S. Takagi, H. Nakano
  • 164
  • The Difference Between Total Absorbed Energy Measured Using an Instrumented Striker and That Obtained Using an Optical Encoder
  • M. P. Manahan, Sr., R. B. Stonesifer
  • 181
  • On the Accuracy of Measurement and Calibration of Load Signal in the Instrumented Charpy Impact Test
  • T. Kobayashi, N. Inoue, S. Morita, H. Toda
  • 198
  • T. A. Siewert, M. P. Manahan, C. N. McCowan, J. M. Holt, F. J. Marsh, E. A. Ruth
  • Evaluation of ABS Plastic Impact Verification Specimens
  • C. N. McCowan, D. P. Vigliotti, T. A. Siewert
  • 210
  • Impact Test Procedures
  • Results of the ASTM Instrumented/Miniaturized Round Robin Test Program
  • M. P. Manahan, Sr., F. J. Martin, R. B. Stonesifer
  • 223
  • European Activity on Instrumented Impact Testing of Subsize Charpy V-Notch Specimens (ESIS TC5)
  • E. Lucon
  • 242
  • 3
  • Dynamic Force Calibration for Measuring Impact Fracture Toughness using the Charpy Testing Machine
  • K. Kishimoto, H. Inoue, T. Shibuya
  • 253
  • Low Striking Velocity Testing of Precracked Charpy-type Specimens
  • T. Varga, F. Loibnegger
  • 267
  • In-Situ Heating and Cooling of Charpy Test Specimens
  • M. P. Manahan, Sr.
  • 286
  • The Effects of OD Curvature and Sample Flattening on Transverse Charpy V-Notch Impact Toughness of High Strength Steel Tubular Products
  • Experiments with a New Machine for Testing Materials by Impact Transactions of the American Society of Civil Engineers, Vol. 39, June 1898, p. 237
  • George Waid, Harry Zantopulos
  • 298
  • Electron Beam Welded Charpy Test Specimen for Greater Functionality
  • Rob Hughes, Brian Dixon
  • 310
  • Fracture Toughness Assessment from Impact Test Data
  • Application of Single-Specimen Methods on Instrumented Charpy Tests: Results of DVM Round-Robin Exercises
  • W. Bohme, H.-J. Schindler
  • 327
  • Relation Between Fracture Toughness and Charpy Fracture Energy: An Analytical Approach
  • S. Bent Russell
  • H.-J. Schindler
  • 337
  • Use of Instrumented Charpy Test for Determination of Crack Initiation Toughness
  • H.-W. Viehrig, J. Boehmert, H. Richter, M. Valo
  • 354
  • On the Determination of Dynamic Fracture Toughness Properties by Instrumented Impact Testing
  • G. B. Lenkey
  • 366
  • Estimation of NDT and Crack-Arrest Toughness from Charpy Force-Displacement Traces
  • M. Sokolov, J. G. Merkle
  • 17
  • 382
  • Essay on the Metals Impact Bend Test of Notched Bars Soc. Ing. de Francais, June 1901, p. 848
Control code
43798500
Dimensions
24 cm
Extent
x, 399 pages
Isbn
9780803128644
Lccn
00038123
Media category
unmediated
Media MARC source
rdamedia
Media type code
n
Other physical details
illustrations

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      2908 Lemone Blvd, Columbia, MO, 65211, US
      38.919360 -92.291620
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