Novel Speckle Preparation and Heat Insulation Method for DIC Strain Measurement at Cryogenic Temperature and Large Deformation Environment (English)
- New search for: Yang, J.
- New search for: Li, Y.
- New search for: Deng, J.
- New search for: Zhang, Z.
- New search for: Zhou, J.
- New search for: Zhang, X.
- Further information on Zhang, X.:
- https://orcid.org/http://orcid.org/0000-0003-2856-170X
- New search for: Yang, J.
- New search for: Li, Y.
- New search for: Deng, J.
- New search for: Zhang, Z.
- New search for: Zhou, J.
- New search for: Zhang, X.
- Further information on Zhang, X.:
- https://orcid.org/http://orcid.org/0000-0003-2856-170X
In:
Experimental Mechanics
: An International Journal Integrating Experimental Methods with the Mechanical Behavior of Materials and Structures
;
64
, 1
;
73-84
;
2024
- Article (Journal) / Electronic Resource
-
Title:Novel Speckle Preparation and Heat Insulation Method for DIC Strain Measurement at Cryogenic Temperature and Large Deformation Environment
-
Additional title:Exp Mech
-
Contributors:
-
Published in:Experimental Mechanics : An International Journal Integrating Experimental Methods with the Mechanical Behavior of Materials and Structures ; 64, 1 ; 73-84
-
Publisher:
- New search for: Springer US
-
Place of publication:New York
-
Publication date:2024-01-01
-
Size:12 pages
-
ISSN:
-
DOI:
-
Type of media:Article (Journal)
-
Type of material:Electronic Resource
-
Language:English
-
Keywords:
-
Source:
Table of contents – Volume 64, Issue 1
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 1
-
On the Cover: Novel Speckle Preparation and Heat Insulation Method for DIC Strain Measurement at Cryogenic Temperature and Large Deformation Environment| 2024
- 3
-
On Orthotropic Elastic Constitutive Modeling for Springback PredictionZhang, Y. / Duan, Y. / Fu, P. / Qi, S. / Zhao, J. et al. | 2024
- 21
-
A New Approach for Measuring Viscoelastic Properties of Soft Materials Using the Dynamic Response of a Spherical Object Placed at the Sample InterfaceKoruk, H. / Koc, H. O. / Yurdaer, S. B. / Besli, A. / Pouliopoulos, A. N. et al. | 2024
- 33
-
Optimization on Cruciform Specimen Geometries of AA5052 Under Equi-Biaxial Loading: Acquisition of Ultimate Fracture StrainChen, S. S. / Cai, D. / Cui, J. J. / Li, G. Y. / Jiang, H. et al. | 2024
- 53
-
Full-Field Strain Measurement Integrated with Two Dimension Regression Analysis to Evaluate the Bi-Modulus Elastic Properties of Isotropic and Transversely Isotropic MaterialsFahem, A. F. / Thumbalam Guthai, A. / Singh, R. P. et al. | 2024
- 73
-
Novel Speckle Preparation and Heat Insulation Method for DIC Strain Measurement at Cryogenic Temperature and Large Deformation EnvironmentYang, J. / Li, Y. / Deng, J. / Zhang, Z. / Zhou, J. / Zhang, X. et al. | 2024
- 85
-
Experimental Investigation of the Ballistic Response of Head Surrogate Against Fragment Simulating ProjectilesPandey, P. K. / Joshi, Y. K. / Khan, M. K. / Iqbal, M. A. / Ganpule, S. G. et al. | 2024
- 105
-
Evaluation of Volumetric Strain on Polyamide 6 by Thermodynamic Entropy GenerationSakai, T. / Oya, Y. / Koyanagi, J. et al. | 2024
- 113
-
Reaching Large Strains During Simple Shear Experiments Thanks to Sequential Re-Machining of the Free EdgesColon, X. / Galpin, B. / Mahéo, L. / Grolleau, V. et al. | 2024
- 129
-
Investigating the Mechanism of Facet Formation and the Influence of Crack Initiation Size on a Cast Aluminum Alloy in Ultrasonic Fatigue Under Varied Humidity EnvironmentsLi, W. / Shi, L. / Shi, Y. / Su, X. et al. | 2024
- 143
-
Research on Strain Modulation of Spectral Reflectance in Soft MaterialsHuo, Z. / Luan, H. / Wei, H. / Wang, S. / Sun, X. / Li, L. / Li, C. / Wang, Z. et al. | 2024